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DOCUMENT RESUME
ED 081 219 / EM 011 396
AUTHOR Stetten, Kenneth J.; Volk, Joh L.TITLE A Study of the Technical and conomic Considerations
Attendant on the Home Deliver of Instruction andOther Socially Related Servi:es Via Interactive CableTV. Volume I: Introduction and Interim Summary.Revision I.
INSTITUTION Mitre Corp., McLean, Va.SPONS AGENCY National Science Foundatio , Washington,-D.C.REPORT NO M72-200PUB .DATE May 73NOTE 98p.
EDRS PRICE MF-$0.65 HC-$3.29DESCRIPTORS *Cable Television; *Com uter Assisted Instruction;
Economic FactOrs; Educ ional Television;*Interaction; *Nan Mac ine Systems; TechnicalReports; Technolgy; * elecommunication
IDENTLFIERS CATV; Fairfax County Virginia; DITRE Corporation;Reston Virginia; TICC T; Time Share InteractiveComputer Controlled I fo
ABSTRACTThis first of ,a four- olume series of reports
summarizes the results of the MITRE C rporatiOngs five years oftechnical, economic, and operational tudies of interactivetelevision. First reviewed are some illjor accomplishments such as: 1)the development of a new cable television (CATV) system configuration
- 2) the application for social services delivery of computer operatingsystem software products; 3) the demonstration of interactivetelevision service and of a two-way broadband link; 4) plans for ahome: /school instructional program; 5) selection of pilot interactiveteleslision services; and 6) recommendation for urban interactiveteleiision trial sites. Following this, major sections are devoted todisc4ssions of piogress in the technology of interactive television,of t'rLe economics of operating an interactive cable system, ofoperational considerations for interactive television, ofdemo3strations of interactive television, and of plans for theirroludiate future. (PB) .
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INTERACTIVETELEVISION
M72-200 Vol.Revision I
MAY 1973 THE MITRE CORPORATION
FILMED FROM BEST AVAILABLE COPY
INTERACTIVE TELEVISION
A NEW USE OF,CABLE TO PROVIDE INSTRUCTION, IN'FORMATION,COMPANIONSHIP AND ENTERTAINMENT, ON ()VIAND, IN THE HOME
Welcome to the MITRE Corporation's demonstration of interactive television.
The MITRE Corporation is a not-for-profit, systems analysis and engineering company, located inMcLean, Virginia. /7-
A ComputerAssisted instruction (CAI) program sponsored ,A MITRE by the National ScienceFoundation has yielded experimental results which may lead to mats education and instruction for less costthan traditional methods.
To demonstrate this, two community colleges will begin using 128 terminal systems on a development, basis during the 1973/4 academic yea'. The project cost per student contact hour is less than onedo:lar (only a third of current traditional cost).
MITRE's work with'C I stimulated the concept of delivering computer-controlled informationand instruction directly into people's homes via a cable television system. This vital community informationsystem would include the innovations that characterize MITRE's interactive television sy-dtem, which are:
the use of standard color TV receivers;
the provision for audio support of the visual display;
the large number of terminals, each,acting on independent demand and controlled by minicomputers;
the low cost of terminals;
the low cost of instruction delivery.
Interactive cable television offers, in your home, indivdualized services on demand. Requests frommany points are accepted simultaneously by the minicomputers and detailed information is deliveredeconomically and, if necessary, privately to any cable subscriber. Interactive cable television providesprbgrammable computer capability in the home
Soon a significant step will be taken. The National Science Foundation is funding a program inwhich 3,500 homes in Reston, Virginia and three elementary schools of this planned new town just outsideWashington, D.C. will be able to exper ment with interactive television.
,The prototype services will be drawn from these categories: /(I Instruction-Elementary grade computer-assisted instruction. The Fairfax County (Virginia) Public
School administration is working with MITRE to design a system and to evaluate suitable program
materials for their specific CAI needs.
(2) 4 ' Companionship for the Housebound-Imaginative communication services for senior citizens, the
infirm, mothers and the urban isolated, providing information to make the community more vital
and help members be more aware of each other. Programs such as "Who's Who in Town," "Who's
New in Town," skills, hobbies, etc. will help to stimulated person-to person and telephone contact,
and help to alleviate urban alienation.
(3) Community Ombudsman-Here the computer is used to store information on-community, municipal,
county, state and national government services. These are, in general, not advertised. In the small
communities of previous days there was often an individual, a local political leader, to whom one could
turn for advice. The typical urban transient population does not develop such people. Interactive
television can screen the problem and guide the user to the correct information resource.
(41 Programming iilthe Sr.linels and H1)111eThis refers to the subsrifber designing the medium, New simple
comtoter tat-mirages have made it possible for teache-rs to learn (insa few short hours) to-constructjodi-
vidualized Instruction programs for children with special neeris:T-hr's opens up the [lest exciting
Imlay that the community members will program ;heirown subjects: instrctions-to--the.babysitterrincase of emergency; a "whl'ile ratalogue" cif community experience, and Whatever citizens find Useful.
(5). Entertainment-- This PX1PHS,VP.iff'a rectudirs interartivii games with the computer and with others: games
of skill, of memory, and of observation. Also, use of the computer to store "rainy day 'suggestions,"
party suggestions, where to go, and what to do.
Community Coherence Ex,iinotes of the low participation of the population in forums affecting their
community and their lives are numerous. The community witl,'be able to use interactive television as a-4
faliiliala Identification of common problems and to provide a forum for airing special viewpoints.
Solutior s may he debated 3n real time or in a "wall newspaper" mode. Immediate polling orpreferettes
on action to chanoria situation will much improve the quantity 'atirf'quality of feedback available to corm
[nullity leaders. and enhance cnommiiity icvolUertiqnt mid participation in-the governing process.
Community Soapbox TN, limiter! space HI "letters to the e.rlitrit" in local newspapers and eve,n,more
limiter) space on television editorials in today's inertia provides an -inadequate substitute for the relative
effect an indivirloal in a small rommurnly [mold have to espouse his views. The complete damut from
politics to pr,etry ran be stored fro narnsai, on demand, by only those who are interested. The low
expense of a smote time storage in a computer-data hese makes available a communications media that
has no adequate. substitute today', simply
(8) Health Care Interactive television ice In disseminate preventive medical information to the "activated
patient" a natient whitse iititin par amedicAl slotisi and understandol of health is upgraded in order that he :
may become actively resonnsifile for managing his own health care.
Preliminary calc.ilations indica 1 h.it o wide ranee of such services may profitably he offered for approxi-mately S14 per month in addition tc.) the reijolie crie v,iti CATV charge. The initial phase of the Reston trialwill he free. As the service of (siring expands, a inodect charge (yet to he determined by NSF) will be introduced,
Control over Jan data base ,th romouter's-,lose.rl 'of ormat,ion) and who has access to it is probablythe single most 'Moor tant problem to lie resolved by mimns ref trials in real community surroundings throughthese experiments
No one yet knows lust what the impact of interactive communications in the home will be, thereare substantial claims for the potential of moth service telecommunications new life patterns forcitydwellers dre predicteil.2
Professor Edwin Parker Of Stanford bower city predicts, ''An information utility.,could be made,ivadahle to ever y Lidian hoer And riorid itoneminity the United States by 1985,-
,Our purpose is to show that this new communications medium is capable of delivering many servicesof true social significance in addition to commercial and business activities. Eventually we hope such serviceswill help relieve many of the ills of our modern urbargife.
1\\..........,_ This concept has lain inoodocori 17N; Wr,111,1 W.:',),), H E 'W Hi ierii Services and Mental health Adm.nistration.
(Onroworicaftwo /c, h,;,/,;.1 it / /bah. Ocrci,pm, fit. A wpor t .11 O,.. Cornr-mt wr on Tc,..co{nroonications, NationalAc,d"rn'r al E,n,t),,,,'.1', li:tho'/- I, ,-1,1i,in i in contmort, an,,,;\,\V1h/Ns i lir IVIrcti Z'Ill-.Depar trricnt of Communication;.I .4- .,,,n-nr, n1 C.1,1 ici,r
4
M72-200
A STUDY OF THE TECHNICAL AND ECONOMIC.
CONSIDERATIONS ATTENDANT ON HOME, DELIVERY
OF INSTRUCTION AND OTHER SOCIALLY RELATEDIII
SERVICES VIA- INTERACTIVE CABLE TV
VOLUME I: INTRODUCTION AND INTERIM S MMARY.
KENNETH J. STETTEN
JOHN L. VOLK
MAY 1973
This document has been approved for public release.
U S DEPARTMENT OF HEALTH.EDUCATIbN & WELFARENATIONAL'UNSTITUTE OF
EDUSATIONTHIS DOCUMENT k.lAS BEEN REPRODUCE() EXACTLY A'S RECEIVED FROMTHE PERSON OR ORGANIZATION ORIGINAlriNlp IT POINTS OF VIEW OP OPINIONSSTATED DO NOT NELESSARI.LY REPRESENT OFFICIAL NATIONAL INS1 'T uTE OrEDUCATION r;), TION OR POI
THE
MITREC 0 R PrOR A T 10 NWASHINGTON OPERATI\ONS
ACKNOWLEDGMENTSThis work is suppdrted by National Science Foundation's Grant
GJ-32785. The report was written'by the authors, but its content
reflects the concepts and work of the Computer Systems Department,
as well as numerous consultants.
The program is being performed under the direction ofKenneth J.
Stetten, Principal Investigator and Head of the Computer Systems
Department at The MITRE Corporation in McLean, Virginia.
0
"Since the computer first appeared in the late 1940's, the infor-
mation industry has been a certainty. But we do not have it yet.
We still do not have the effective means to bUild an "information
system." This is where the work is going on, however. The. tools to
create information systems may already exist: the communications satel-
lite and other means of transmitting information, microfilm, and the
TV tube to display and store,it, rapid printers to reduce it to per-
manent record, and so on. There is no.technipT reason why someone
like Sears Roebuck should not come out tomorrow with an appliance selling
for less than a,TV set, capable of being plugged in wherever there is
electricity, and giving immediate access to all the information needed
for schoolwork from first grade through college."
Peter F. Drucker,THE AGE OF DISCONTINUITY
4.
TABLE OF CONTENTS
1.0 INTRODUCTION1.1 The yrbmise of Interactive Television1.2 The Problem of Interactive Television1.3, Overview of MITRE's Program in Interactive Television1.4 Program Progress
PAGE
1
5.
8
9
2.0 PROGRESS. IN THE TECHNOLOGY OF INTERACTIVE TELEVISION 15
2.1 New CATV Configuration to Support Interactive Television 15
22 Interactive TV Test-Bed., 21
3.0 ECONOMICS OF OPERATING AN INTERACTIVE CABLE TV SYSTEM 24
3.1 Introduction to the Financial Analysis 25
3.2 The ICEEM: A Capsule Description 29
3.3 An Example of the Use of the ICEEM: Principle Assumptions 2c),
3:4-Results of Example Application of the ICEEM 32
3.5 Analysis of Front-End Investment and Cash Flow Calculations 34
4.0 OPERATIONAL CONSIDERATIONS FOR INTERACTIVE TELEVISION 44
4.1 The Management Task 44
4.2 Selection of Candidate Services 46
4.3 Selection of Candidate Sites for an Eventual Urban Center 53
Trial of Interactive TV Services
.5.0 DEMONSTRATIONS OF INTERACTIVE TELEVISION 58
5.1 1971-1972 Demonstration at Reston 60
5.2 The Impact of TICCIT Demonstrations 61
5.3 A New Reston Demonstration Developed Under This Program 62
6.0 PLANS FOR THE,IMMEDIATE FUTURE 67
6.1 Services Planned for Multiple Home Delivery in the Next 67Seven Months
6.2 Management ofiService Production and Delivery 73
6.3 An Evolutionary Computer SyStem Design -766.4 Software 82
APPENDIX ORGANIZATIONS AND INSTITUTIONS REPRESENTED By VISITORS TOTHE MITRE CORPORATION'S TICCIT DEMONSTRATIONS 83-88
DISTRIBUTION LIST 89
/
v
LIST OF FIGURESPAGE
1. HUB CATV SYSTEM WITH TRUNKING TO INDIVIDUAL CELLS 19
2 LIST OF SERVICES FOR ORIGINAL DEMONSTRATION PROGRAM 64
3 RESTON PHASE I COMPUTER SYSTEM 78
4 SIMPLIFIED BLOCK. DIAGRAM OF PHASE I PICTURE GENERATION HARDWARE 79
LIST OF TABLES
I PROGRAM OUTLINE
II EXAMPLE SYSTEM DATA
10-11
30
III LISTING OF COMPONENTS AND CAPITAL COSTS OF DIGITAL CENTRALREFRESH SYSTEM 33
IV .MITRE INTERACTIVE CABLE ECONOMIC EVALUATION. MODEL 37-43
V LIST OF.THE JUNE PANELISTS AND THEIR SUGGESTIONS FOR SOCIALNEEDS 44
VI LIST OF THE AUGUST PANELISTS' AND THEIR SUGGESTIONS FOR"POPULAR" SERVICES 45-46
VII RANKING OF SERVICE PACKAGES FOR HOME DELIVERY 54
VIII DEMONSTRATING TICCIT.: THE NECESSARY TASKS AND DESIRED EFFECTS 58 '
vi
FOREWORDThis report was written to describe progress by the Computer Sys-
tems Department of The MITRE Corporation on a study of the technical,
economic, practical, and social considerations attendant on the deli-
very of instruction and related services via interactive cable tele-
vision. The work was directed toward uncovering and resolving. problems
and developing opportunities associated with our plans to test an in-
teractive television system serving Several thousand subscribers on a
daily basis. This report,,- Volume I, covers the first nine months of
work (Phase I) ending in October, 1972. Th.grant was succeeded by
a seven-month effort (extended Phase I), Initial Implementation, Pepor-i
ted on in Volume IV.
At the time of this writing, The MITRE Corporation is actively
preparing to implement delivery of services and measuring the community
response to 3500 homes and three schoqls in Reston, Virginia.
Other Volumes in preparation for issuance in the near future are:O
VOLUME II TECHNOLOGICAL AND. ECONOMIC CONSIDERAIONS FOR INTERACTIVETELEVISION
Alternative Interactive Television Configurations --Phase II Hardware Detailed Design -- Data Base Manage-ment and Retrieval Design -- Economic Evaluation Models
VOLUME IiI SOCIOLOGICALAND INSTITUTIONAL CONSIDERATIONS INVOLVEDIN THE IMPLEMENTATION OF INTERACTIVE TELEVISION
Predicted Sociological Impacts of Interactive CableTelevision Selection and Evaluation of Types ofServices -- Analysis of Some Selected Social Needs --Evaluation of Cities for Future Urban Tests
,VOLUME IV IMPLEMENTATION PLAN FOR THE MARKET TEST IN RESTON,VIRGINIA ,-
Phase II Technology -- Educational Content HealthCare Content -- Community. Information Content.--Evaluation Plan
et
1.0 'INTRODUCTION''
1.1 The Promise of Interactive Television
New forms and imaginative uses of teleCommunications can make
contributions of fundamental importance, to meeting and solving nearly
. every major problem of urban society and urban life. Th'e Report re-
cently issued by the Committee on Telecommunications of the National
Academy of Engineering, 'whose membership is widely representative, of
government, industry; and national civic groups, states:
Our cities have many problems in urgent need of solu-tions. City governments have a requirement for closercommunications with their citizens and readier responseto citizen 'needs' ,City schools are less than satisfac-tory in providing quality education to,the nation's youth.Medical care is inadequate for the Cities 'poorer and oldercitizens. Individualized transportation is clogging. thestreets and polluting the air.' Public transportation isoften inefficient and unattractive to its users. Lawenforcement agencies have.difficulty in coping With agrowing crime rate. '
The Committee believes that modern communicationstechndlogy; thoughtfully applied, can help, t6 relieving manyof eitheSe problems and in upgrading' the leVel of cityThis conviction has been' further confirmed as a result' ofthe-Committee's in-depth study of city operationS,_ and acontinuing exchange of icleas with officials in a cross-section of U. cities.'
Interest in telecommunications as 'an increasingly powerful tool
for dealing with urban problems is now worldwide A telecommunications
study made by the Canadian Department of Communications says:
Multi - service, telecommunications systems, can providenot only means of developing new life patterns for .citydwellers, but also solutions to many of the ills of urban
A Report of the Committee on Telecommunications, National Academy ofEngineering, Communications Technology for'Urban Development, June 1971,page 1.
,ne
tiling. Through the planned use of such systems, urbandwellers will be able to enjoy ordered, Well-defined,and harmonious surroundings. They will have the oppor-tunity of participating in society in a manner neverbefore possible.2
In these and other studies, interactive television, brought to
cities and communities through cable. systems, is a coming communica-
tions mode that could have particularly high social value. Urban
planners, social scientists, and historians are increasingly concerned
that one-way TV communications may be adding to,,rather than ameliora-
ting, basic problems of our society. In an article on television in
Life magazine, Daniel Boorstin, Director of the National Museum History
and Technology of the Smithsonian, Institute, calls for a new technolo-
gy and neWHises to overcome TV's limitations:
.,The grW test is whether somehow we can find waysin and throughtAeleviston itself to break down the wallscf the pew secregation -- the walls which separate usfrom one another, from the sources of knowledge and power,from the past, from the real world outside.
We must find ways to decentralize and define and -sepa-rate TV au Iences into smaller, more specific interest groups,who have't e competence .to judge what they see, and then togive theaudiences an opportunity to react and communicatetheir reactions. We must try every institutional and tech-nological device -- from more specialized stations to payTV, to cable TV, and other devices still unimagined.3
A second source of increasing interest in interactive TV stems--\_
from its potential for performing functions and,delivering services
2Government of Cdnada, Department of Communications. Multiservice CableTelecommunications Systems: The Wired City. Final Report of Telecom-municattons Study 8(d). Ottowa, 1971. Typescript page 15.
3 "Television, more deeply than we suspect, it has changed all of us,"Life, September 10, 1971.
2
that cannot be provided by one-way communications and that offer great
`promise for ameliorating problems caused by growing urbanization.
These services night enable better access to education, wider and
better dissemination of health care, direct access to a wide range of
information through computer hook-ups, delivery of .specialized visual
material to the home when the subscriber wishes 1.o see it, facsimile
printingof material in,the home, and greater participation of urban
population in civic life through polling and direct interaction with
political leaders.
Interactive television, built on the existing highly refined tele-
vision technology, in which American citizens have 'already invested
over 20 billion dollars, has been developed to the point of public demon-
stration.4
By coupling home television sets on cable systems to com-
puters, interactive television is ready for studies, experiments, and
demonstrations leading to the fulfillment of its potential.
Professors Edwin B. Parker and Donald A. Dunn point out in a recent
article in Science5the great promise of interactive television, espe-
cially when combined with video cassettes, computer information systems,
and communications satellites, which they call the total "information
utility". They see the greatest single potential for this nationwide
information is its capability to reduce the unit cost of education and
to increase productivity in the knowledge industry. Not only would the
4The Reston, Virginia Test of The MITRE Corporation's InteractiveTelevision, MTP-352, The MITRE Corporation, 1971.
5Parker, Edwin B and Dunn, Donald A., "Information Technology: ItsSocial Potential," Science 176:1392, June'30, 1972.
3
capacity of the individual instructor be enhanced, but educational
institutions would be aided.tO melt the important challenges of equality
of access to educational opportunity and open enrollment.in universities,
life-long learning, and'the need for periodic (or continuous) retraining
accommodated to the individual on a flexible schedule-in_the home or
office, and diversity of curriculum content to meet demands for rele-
vance and variety.
'Noting the "low cost, large capacity, and local coverage available
through cable television, Parker and Dunn point up the greater variety
of program content that would become available to satisfy many minority
interests and tastes not now served by television. They feel further
social potential would be discovered by legislation that guoranteed non
'discriminatory access to expression of various political, social, and
ethnical viewpoints and to stimulate availability of the media to the
economically and culturally deprived. They even see the information
utility as an aid to solving the problems of congestion of the cities
because it would lead to greater physical decentralization of business
and other facilities. They state:
The social goal of such an information utility would beto provide all persons with equal opportunity of access toall available public information about society, government,opportunities, products, entertainment, knowledge, and educa-tional services, From the subscriber's perspective, such asystem would look like a combination of television set, tele-phone, and typewriter. It would function as a combined libra-ry, newspaper, mail-order catalog, post office, classroom,and theater.6
6The Subscriber Response, Hughes Aircraft Company, 1971; A-Program toImplement .Communication SerVices, A. D. Little, Inc., 1970.
The private sector recognizes the potential value of two-way TV-for-
selling products and services, and is developing such uses. But what is
the place of serviicl with high social utility, with either low or longer-
term commercial applications if the development of interactive TV is
supported by venture capital from only the private sector? One cannotN,\
be optimistic that the private sector will lof-e the possibilities
of such uses on more than a token basis without firm policy guidance
and strong initiatives from government institutions, if we look to com-
mercially broadcast television as a model. We have, therefore, begun
studies leading to the development of a broad base of data and informa-
tion on interactive services and a.prototype installation from which
more extensive data and information can be compiled on the basis of
demonstration and experience.
1.2 The Problem of Interactive Television
DiscussiOnS of the future of. cable television often present glOwing
pictures of potential two-way communications services on cable. Exten-
sive lists of potential services have been compiled. Commercial ser-
vices, such as security alarm monitoring, remote shopping, and computer-
to-computer data transmission are often cited as important to the econo-
mic success of cable television in cities. It is also recognized that
non-commercial services, such as interactive educationol television in
the home and direct citizen feedback on local political issues,woul,d
be of great public benefit. Impessed with these possibilities, the
Federal Communications Commission has recently ruled that all new cable
1--(C01-1 2;\...;i4,_,3 i
Rc-PORT,
(RAND REPORT),
1-
_systems. installed in the_hundred largest U. S. television Markets must
have a two-way transmission capability.
As is often the case with emerging technologies, the promise of two-
way services on cable has, at times, been oversold. Although most pro-
posed new services are technically feasible, many may not be economically
:Feasible., Others can probably best be accommodated on the telephone
network or by other means. Some may not be desirable at all. The value
to society of, and the commercial demand for various new cable services
is unknown at the present time.
As it turns out, the near-future capital investment per subscriber
to provide the delivered technology system for providing this vast poten-
tial array of services is smaller than that currently invested in the
U. S. telephone system (investment is approximately $1000 per telephone,
although incremental costs to the system are in the $1200 per telephone
range). Thus, a most tempting set of commercial opportunities exists
on the horizon. Most people knowledgeable in communication, academia,
government, and commerce, see mass utilization of two-way'CATV as an
eventual certainty.
Because of the present lack of any market tests of these services
not only is the investment community reluctant to support expansion in
this area, but government planners from municipal to federal, from
educational specialists to telecommunication regulators are also reluc-'
taut to initiate programs without information on citizen respohse to
this new media. It seems probable that such uses' as credit card valida-
tion and point-of-sale terminals (leading toltard the cashless'society)
6
in the next three years will develop information on the market for
commercial ,services. We believe the same should be done for the non-
commercial services, to investigate options such as interactive educa-
tional televisior, for the home.
Citing an historical analogy, Stanley Scott of-the-University-of
Southern Califqrnia refers to a speech by Herbert Hoover in 1922 on the
future of first generation radio, then scarcely in its infancy. President
Hoover stated; "It is inconceivable that we should allow.to great an
opportunity for public service to be drowned In advertising chatter."
"Yet," says Professor Scott, "we proceed to fumble our way toward a
System under which advertising and its influence,while not 'drownin
the media, certainly dominated its development, preempted its time,
and controlled its programming. This system has seen three geneations
of electronic communications -- AM, FM, and over-the-air TV -- experi-
ence abysmal failures to achieve social benefits that the developing
technology could have produced. If government laissez faire continues,
We may be assuring that media history repeats itself. The only viable
alternative is a deliberate act of public will." Scott calls for:
1) public interest oriented organizational support, and 2) a strong finan-
cial base that does not depend primarily on advertisin!, unless the
forCes of advertising are neutralized or otherwise kept under control.
Professors Parker and Dunn are more optimistic:
Although some consider any services other than enter-tainment that might be Provided by cable television as spec-ulative, most knowledgeable observers exi,cu',. strong growthto take place, in additional services,.."
7
They COnclude:-
In .order to accomplish these positive social goals,a-detatled-plan fora federal action and participation isneeded. Since most of the funds for this utility will comefrom the private sector, the principal' needs for federalaction are in the areas of coordination,. policy analysls,and assessment, and the funding of pilot projects anddemonstrations deS-Ignedto stimulate the developmentof new public sector education and information services.8
Since'it will take so mu-ch-time before mass test and social feed-
back occur, The MITRE Corporation has explored the feasibility of a
quick-thrust implementation in one or a few communities that can sig-
nificantly decrease the knowledge gap in this area We have reason.
to believe, based on our own efforts in this new technology, the
comments of others orr.our implementation so far, and the proposed
implementation of a number of organilations, that it should be possi-
ble to determine a community's response to the availability of inter-
active televi:;on. Of major importance is the concept that the set of
services will be,chosen-by the community from an initial offering, and
,will not just be predetermined by
1.3, Overview of MITRE's Program in Interactive Television
Since 1968, MITRE hasbeen_actively developing 'a computer system
called; TICCIT (Time-shared, Interactive,' Computer-Controlled Informa-
tion Television). Through the coupling of commercial television and
advanced computer technology, MITRE has attempted to open new areas
8Parker, Edison B. and Dunn, Donald A., "Information Technology: ItsSocial Potential," ScienCe.176:1392, June,30, 1972.
8
for cost-effective utilization, with emphasis on computer-assisted ,
inStruction.
A milestone was reached in ,L i, 1971, when the country's first
interactive television system was ,,emonstrated in a Reston, Virginia
h3me by MITRE. This system connected standard television receivers
in a few homes and schools in Reston to MITRE's computer system via
the Reston cable television system. A demonstration of_Agreat variety
of potential \nteractive serwices has been demonstrated to government
and industry leaders (representing the 148 institutions and organiza-
tions listed in the Appendix) during the following year.
In December, 1971, NSF awarded a grant to'`MITRE to study the tech-
nical and economic considerations attendant on, the home delivery of
instruction and other socially Oflated services via interactilie cable
TV. The emphasis was on the problems associated with the development
of an interactive television system serving several thousand subscribers.
This study is the first part of a planned three-phase program, shown
in Table I, that will lead to the installation and evaluation of an
interactive television system in a yet-to-be selected Urban community.
1.4 Program Progress
This, the first of a four-volume series of reports, summarizes
the results of MITRE's five years of technical, economic, and operational
studies of interactive television. Subsequent volumes will emphasize
special areas.
TABLE I
PROGRAM OUTLINE
Phase n and Evaluation Study:
Perform subsystems and component design of hardware and software.
Develop economic evaluations of system capabilities and configu-
rations.
Develop,criteria, rationale, and make preliminary recommendations
for initial service offerings.
Develop criteria for and evaluate urban center test site candidate
selections.
Conduct complementary theoretical and practical analyses of time-
shared interactive service delivery.
e Prepare a plan for Phase II.
Phase II - System Development
Home-test hardware for reliability, function, and human engi-
neeri ng considerati ons.
Home-test software for reliability, function, and human engi-
neering considerati ons.
Develop, social service content.
Test in Reston to determine subscriber response.
Select urban test sites.
Develop installation plans for urban test sites,
Phase III - Implementation and Measurementr,
Install system in test community
Modify services in response to, community feedback.
10
TABLE.I (Continued)
PROGRAM OUTLINE
Operate and Maintain the system; perform demonstration and
tests.
Measure subscriber response.
Evaluate results'of demonstrations and tests.
11
The latest major-technical accomplishments of the prOgram,arc.
Development of a new, economically 'advantageous.CATV distri-.
bution system configuration, 'especially suited for Interactive
television and compatible with cable operators' constraints in
large urban centers.
Application for social-services delivery of computer operating
system software products developed under MITRE's CAI project.
Demonstration of interactive TV service concepts delivered over'
a CATV system controlled by a-stand-alone minicomputer system.
Demonstration.of a two-way, broadbank link on the Reston CATV
system.
Plans for development of a home/school instructional program
plan in cooperation with three Fairfax County',,,Virginia elemen-
tary schools.
Selection of pilot, interactive television services that have
a broad appeal to all economic, age, and educational levels.
Recommendation for urban center interactive :television trial
sites.
Another major accomplishment has been the development of an econo-
mic analysis model, capable of handling advanced interactive television
CATV systems.. Based on a twenty-year. project, cash flow may be traced
fOr.;aPous-penetration rates, mtmthly charges, and .implementation
strategies. ThA new model, which has% evolved from one developed
for an urban cable systems study recently completed by MITRE for the
12
John and Mary R. Markle Foundation, has been used to analyze one Wash-
ington, D. C. service area defined in this earlier study, using the
actual demographic, business, and systemparameters,as input data.
The results indicate that inter ctive television in the selected area
would be economically viable at charges of $14.00 per subscriber per
month. Naturally, this value is sensitive to many parameters. Section
2.3 and Volume II treat this complex area in detail.
In the operation area, MITRE focused on the selection of inter--
active television services, management of service production, and
the selection of candidate test sites for an eventual trial of inter-,.
active television. To gither suggestions and advice, MITRE convened
two advisory panels. Educational, social, and communications specia-
lists served on the first panel; practitioners in print and television
media on the second.9
All of the paneliat expressed enthusiasm for
the potential of interactive television. They affirmed that TICCIT
must be able to successfully vie for viewer's time before attention
can be concentrated on the social impacts. Each.panelist provided
examples of communications problems within his special field that
would be alleviated by the flexibility and responsiveness of inter-
active television.
The results of the study convince us that meaningful experi-
ments with interactive television can be made today. The technology
is available '(a large set of interactive services can be offered
9Tables III and IV list the panelists.,
13\
without the addition of any significant new electronic equipment in the
home), the cost is reasonable, and the operational problems of service
selection, production, and test-site selection appear manageable."--
14
2.0 PROGRESS IN THE TECHNOLOGY OF INTERACTIVE TELEVISION
We believe the most technical ac:hievement of this program
has been the conceptual development of a CATV system configuration-espe-
cially engineered to be economical for delivery of interactive television
services. This configuration permits immediate testing of interactive
services with a large-sample population. A major advance has also been
made in software products, developed under a related CAI system develop-
ment project at MITRE, utilizing- television delivered instruction. Many
of the most complex software package programs '(for instance, the real-
time operating system) will be used in both applications.
Other accomplishments of the program are: (1) the country's most
sophisticated interactive TV demonstration, (2) a study, of. projected
.lbscriber fee and commercial operational financial implications of
this technology, and (3) a two-way CATV installation in Reston, now
being installed and tested through the cooperation of the Reston Trans-
mission Company and TeleVision Communications, Incorporated (respectively,
operator and owner of the test-site cable system).
2.1 New CATV Configuration to Support Interactive Television
A broad system's approach to interactive television has not been
taken by any of the commercial developers of interactive television hard-,
ware. For the most part, wily bits and pieces have been demonstrated in
two prototype two-way systems. These have been interactive only in the
sense tha/t subscribers can respond. None have offered individual ser-
vices. ,o/ company has yet developed a clear planthat leads the system
15
operator from a conventional one-way system through various levels of
interacticn, to a full, TICCIT-like system in an evolutionary or cost-
)
effective manner.10
Wr this reason, we have developed an evolutionary
implementation plan that maximizes the use of available channel space
and time-shares the expensive components., Evaluations of configurations
and their costs are continuing, and will be included in Volume II. The
following is a summary.
For more than a year, MITRE has been experimenting with and publicly
demonstrating an interactive television system in Reston, Virginia, in
conjunction with the Reston Transmission Company. A major impediment
to the operational implementation of this system has been the coat of
the refresh memory needed in each home utilizing interactive television.
The refresh memory and its associated electronics cost more than $1000
when bought in moderate quantitles. In Reston, a video-tape recorder
was used as a refresh memory (in its stop-frame mode), providing the
home-owner with not only a refresh memory, but also a video recorder/
player. But even with its multiple uses, the refresh memory costs a
disproportionate amount, relative to the cable television system.
To overcome this problem, we are taking a new approach. We assume
that the average household will use interactive television services that
require a computer-generated display (and, hence, a refresh memory)
about thirty minutes each day. Assuming a ten-hour day, this means
that one refresh memory could serve up to twenty households with
10Such as is described in "Urban Cable Systems," MITRE Report M72-57.
16
interactive television services. This is equivalent to a 5% load factor.
Some peaking will occur;.until usage statistics are gathered, assumptions
have to be made on how parameters such as system availability and pri-
cing strategy affect demand. In practice, this will be predominantly a
function of the type of service and the user, hence experimentation is
essential to the validation of this approach. We have used queueing
theory to evaluate this system configuration; with the present necessary
assumptions, we are satisfied that delays will not be unreasonable.
Volume II details this analysis. On a long-term basis, we foresee the
following scenario: As the market and services for interactive tele-
vision develop, and the cost of refreshers decreases (to, say, $200-300),
heavy users of the system may lease their own refresher,allowing them
to bypass queues at peak hours on dedicated channels by using a time-
shared addressed, multiplexed channel. For example, a school making
continuous use of its television terminals would best be served by such
a. multiplexed channel, feeding refresh memories associated with each dis-
play. It is clear that the refresh memory is a key element in the dis-
tribution system; as a contribution to the progress in this field, MITRE
has developed a solid-state frame-grabber. It is not clear, in any gen-
eral sense, whether a mix of dedicated and multiplexed channels (that is
with refresh memories at a central location at subscribers' TV receivers)
is a desirable operating configuration, or whether a system, must, for
practical reasons, be either one or the other. MITRE is analyzing al-
tercate systems in an attempt to discover how combinations of subscriber
density, service load, and refresh costs affect this choice.
17
The advantage of /haring refresh memories is obvious -- the cost
per refresh can be spread over many users. The central location of
the refresh memories creates a need for a communication channel between
the shared-refresh memories and the home-television receivers. As
shown in Figure 1, the cable system divided into cells of about
200 subscribers. Etch cell is connected, with its own trunk cable,O
to a hub, and each hub services about ten trunk lines (i.e., approxi-
mately 2000 subscribers per hub). The hub, in turn, is connected to
a common=program source, the headend. About ten channels on the cable
,_system are dedicated to interactive television. Broadcast television
is transmitted through the system from the headend to the hub to the
trunk, and finally, into the homes in each -cell. The interactive
television channels flow only from refresh memories in each hub to
the homes/in each hub's cells via the individual trunk lines. Each
trunk line in this example has ten refresh memories associated with it,
one for each interactive channel. The users in each cell, therefore,
have access to ten refresh memories by tuning to the ten interactive
television channels. Located in each hub is equipment to place the
broadcast television signals on each of its ten trunks, along with
the outputs of the 100 refresh memories. The hub also contains either
the computer to provide interactive television services, or equipment
to allow a remote computer to serve it.- Communication from the home
keyboard (and other devices, such as meter readers, burglar alarms, etc.)
to the hub is accomplished with a separate, relatively narrow-band
18
HUB HUB
HUB
TRUNK FOR CELL 1
TRUNK FORCELL 2
HUB
HUB
HUB
HUBCELLS
NOTE:EACH HUB AS A NETWORK OF ABOUT
10 CELLS EACH OF WHICH IS SERVED
BY A TRUNK
FIGURE 1HUB CATV SYSTEM WITH TRUNKING TO INDIVIDUAL CELLS
19
digital communication signal on the same trunk that carries TV signals
to the home.
Thus the MITRE hub-type system combines switching characteristics,
(which have some similarities to the functions carried out by a Discade
or Rediffusion hub), and the traditional distribution and signal origi-
nation role exercised by a conventional, one-way system hub. The MITRE
hub Concept serves fewer subscribers than conventional hubs, so as to
increase channel capacity per subscriber, and to improve point-to-point
CCTV capability, audio distribution, and store-and-forward communica-
ti on potential.
The MITRE hub-type system has an added attraction, it reduces
thespurious signal pickup problems that have plagued early two-way
experiments and places less of a demand on cable amplifiers. These
advantages (expanded on in Volume II) and the minimization of special
hardware in the home have contributed to, the encouragement we have
received from industry leaders, briefed on the new approach.
Al] viewers located within a cell are able to view material in-
c.:
tended for anyone within that cell. If the material requires privacy,
it is necessary to scramble the video at the headend and descramble
at the home, with a code kno . only to the intended viewer's terminal.
Fortunately, equipment to perform this function is being independently
developed by a number of firms to provide "pay TV" services. It is
likely that this equipment, which has an expected cost of $25-50 per
termina4 will be widely implemented to allow "pay TV," regardless of
20
TICCIT implementation, and can perform the additional service of pro-
viding TICCIT privacy at little or no additional cost.
Three types of home keyboards will be used in the interactive sys-
tem; a simple, twelve-button keyboard (similar to the "Touchtone" pad)
will be the standard input device; a. full, typewriter-like keyboard
will also be available to those users who wish to enter textual material
or to take a major CAI course. In both cases, a CATV cable will carry
the keyboard signal to the computer. A time-slicing digital communi-
cations technique will be used to provide each user with the capability
of continuously entering data at a rate equivalent to 100 typed words
per minute, For the immediate future, however, we recognize that most
existing CATV systems do not have two-way capability (this will gradually
change in the next five years because-of new FCC rules -- see Section
3.3), and that, initially most users will enter the interactive program
only infrequently. For this reason, we will provide the interactive
capability using existing home Touchtone telephones as entry devices.
While there are many reasons why the telephone is far from ideal for
the long range applicatibn, we feel it is a good interim device for
the less expensive approaches MITRE is developing.
2.2 Interactive TV Test-Bed
Through the generous cooperation of the Reston Transmission Company,2-
(RTC), MITRE has been using the Reston CATV system as a test bed for
its interactive TV experiments since May, 1971. The system is of
high technical quality, but it lacks an operational two-way capability.
21
Because of the, numerous technical, problems associated with two-way
cable communications, MITRE has felt that it.shoulJ conduct tests and
experiments on a two-way system. To meet this need, a portion (15,000
feet of cable) of the Reston Cable system has been retrofitted for NO-
way operation by the Jerrold Corporation, under' contract to the cable,
system owners. The funds for this hardware expansion (approximately
$25000) were provided by TeleVision Communications, Incorporated, a
division of Warner Communications, which controls Reston Transmission
Company's cable television system. Wth excellent cooperation on the
part of the cable system operator, two-way video digital and audio
experiments were conducted ahead of schedule.
During the study phase, the Reston TICCIT demonstration test-bed
system has been maintained and shown to many government and industry
people. The computer control was successfully changed over from the
original IBM 360/Honeywell 516 machines to a stand-alone Data General
minicomputer. In addition, an all-solid state digital refresh device
replaced the video-tape player as the frame grabber, and the system
output to the cable was converted to a NTSC color signal, so that home
subscribers may now view interactive television in full color. The
-range of service presentation techniques has been expanded to include
graphics, a choice of font, slides, and the selection of video tape
materials.
Any of the 3,500 subscribers to the Reston Transmission Company
CATV service can now (one at a time), call up the existing MITRE data
22
base of information and entertainment for display on his home receiver.
using his Touchtone tel.phone as the feedback mechanism. During the
coming seven months, the system capability will be expanded so that t
hundreds of families will have scheduled, real services available on
a time-share basis, in'which approximately ao lines are available
simultaneously.
23
3.0 ECONOMICS OF OPERATING AN INTERACTIVE CABLE TV SYSTEM
MITRE has developed, under this grant, an economic model of a
CATV system.11
It is especially designed to test the economic viabi-
lity of alternative cable systems, both'in terms of configuration and
financial operation. The concepts employed in the computer-based
Interactive Cable Economic Evaluation Model (ICEEM) are the standard
ones used in the field of engineering economics and capital budgeting.
On the financial and marketing level, the ultimate viability of
TICCIT rests upon market acceptance of TICCIT services, delivered at
costs that justify system implementation. No matter how sophisticated
the feasibility study, the question of market success will ultimately
be settled through the actual offering and marketing of services. With
this in mind, considerable effort has been invested in devising system
configurations that minimize the commitment of investment, prior to
the demonstration of consumer acceptance.
For persuasive technical and economic reasons, TICCIT fs-best
implemented through cable systems. The genesis of cable television
has been its operation as a community antenna system for carriage of
distant TV signals. If cable is to serve as the transmission medium
for TICCIT and other interactive services, thenTICCIT must be evalua-
ted within economic and financial context of the existing cable
11This model has benefited from prior MITRE work supported by the MarkleFoundation, reported in "Urban Cable Systems", M72-57, W. F. Mason et.
al, of The MITRE Corporation, dated 1972.
24
television industry, the services it currently provides, and its pros-
pects for the future.
The economic and fjnancial.studies, involving a thorough considera-
tion of cost/service/system combinations in conjunction with trade-off
studies and sensitivity analyses, have required a major computational
effort. Although some computer programs that deal with cable televi-
sion's economic viability are available, none were found capable of
dealing with a hierarchy of service levels ane alternate system stra-
tegies, including interactive computer-based services.
ICEEM can directly answer the question "how much must be charged
for interactive cable services in order to achieve some given rate of
return on capital invested over the life of the project?" An example
of the ICEEM, applied to a two-way system is discussed later in this
section. An important area of study using the ICEEM has been the first
cost of an interactive cable TV system. Regular one-way CATV systems
require high initial capital investment. Expansion into two-way and
interactive services is phased to minimize front-end financing. This
is reported in detail in Volume II.
3.1 Introduction to the Financial Analysis
ICEEM is a capital budgeting program based upon the discounting
of projected cash flows over the expected life of the proposed under-
taking. Discounting is future oriented, taking into:account the time
value of money. The principal outputs are projections of cash flow,
profitability, and required revenue. These three important parameters
are briefly discussed below.
25
Cash flow is the flow of cash payments at the moment they take
place, Cash flow for the total investment includes capital invest-
ments, operating costs, and revenues -- all at the point in time they
occur. Cash flow for equity purposes is total investment cash flow,
adjusted for cash inflows and loan repayment (both interest and prin-
cipal) due to debt financing.
Profitability is measured by the rate of return on total invested
capital ,(project rate of return), and the rate of return on common
equity. Appearing under many different guises, rate of return is the
fundamental measure used in financial analysis. Rate of return is
the rate of discount which brings the Tresett worth (capitalized value)
of total discounted costs into equality with the present worth of total
discounted revenues; both costs and revenues being on a cash-flow basis.
If the rate of return on total invested capital is greater than
the cost of debt, then a proposed investment passes the preliminary
screen for profitability. At the second level, given the cost of
debt and extent of financial leverage, if the rate of return .on equity
for a given project is at least as great as the rate available on,alter-
native investments in the same risk class (the required rate of return
on equity), then the project is considered economically feasible.
The cost of debt, and the required rate-of return on equity,
weighted by their respective, percent contributions, is called the
cost of capital.
26
If the project rate of return exceeds the cost of debt, then
increasing financing leverage will increase the rate of return on
equity. However, the reverse is also true, increasing leverage can
increase the cost of debt and risk to the equity holders.
DiscusSions with financial representatives of the cable tele-
vision industry have indicated a target before tax rate of return on
total invested capital in the vicinity of 12%. Naturally, the exact
desired rate depends upon the anticipated risk of the particular
proposed project. Seen in terms of the cost of capital, there are
numerous combinations of financial leverage, cost of debt, and rate
of return on equity that would produce the same {;pure. For example:kate of
% Debt Contri- Cost of % Equity Con- Return on Cost obution X Debt + tribution Equity :--SIEttal
1. .8 X 8% + .20 X 30.0% = 12.4%2. .65 X 8% + .35 X 20.6% = 12.4%3. .60 X 8.5% + .40 X 18.3% = 12.4%
Empirical evidence, combined with results of financial stimulations,
indicates that, as a result of accelerated depreciation and the invest-
ment tax credit, the nominal 48% tax rate on corporate income produces
an effective tax rate of about 33%. The before-tax rates of return on
equity used in the previous example of 30%, 20.6%, and 18.3%, would
become after-tax rates of return on equity of 20%, 13.7%, and 12.2%,
respectively. The combination of financial factors listed above re-
flects actual cable industry experience. (The ICEEM program also cal-
culates an equity rate of return based on borrowing for capita' construc-
tion only. Since initial operating losses are financed wholly by equity,
27
this produces an effective leverage of only 64% debt financing, rather
than the 80% shown above. The lower figure would be common to the fi-
nancially weaker owners of cable systems;: the top MSO's are capable
of achieving the higher leverage with an 8% average cost of debt.) In-
flation is taken into account through adjusting the cost of capital.
Instead of adjusting costs and revenues for the compounded effect of
inflation, the rate of inflation is removed for the cost of capital.
For example, the 12.4% rate of return alluded to above, adjusted for
3% inflation, becomes a 9.1% "real" cost of capital.
Required revenue is especially useful where little is known about
market prospects. A cable investment can be approached from two
viewpoints:
1. Given anticipated costs, charges, market penetration, finan-
cial leverag6, and cost of debt, what rates of return can be
achieved?
2. Given co5:t of capital, equipment, and'operating costs, and
expected market penetration, what revenues must acCure from
each service?
We have called the second method the required revenue approach. ICEEM
is unique in its capability to calculate rates of return; given a change
structure, and simultaneously to report the required revenue for a given
cost of capital (to be able to repay debt and retain sufficient profit
to achieve the required rate of return on equity).
28
3.2 The ICEEM: A Capsule Description
In addition to providing projections of rates of return and re-
quired revenue, the computer model calculates financial results for
the first six years of the 20-year assumed project life, (Except
for inflation, and the automatic provision for replacement investment,
years 6-20 are assumed to have identical market penetration and
financial results.) Figures reported include revenues, expenses,
loan repayment, net income and cash flow (net income plus deprecia-)
tion and loan repayment). Corporate income taxes are taken into
account through adjustment of the required rate of return on equity.
Operating costs. and capital recovery (interest plus depreciation)
4.° are itemized and totaled. Costs are printed out on an equipment-
unit basis. Separate market penetration profiles are available for
two classes of services -- one way and interactive television. Cost
and revenue categories are itemized. This detailed reporting facili-
tates a full. .tracing of cost and revenue origins -- an essential
ingredient to engineering, economic analyses, and to the pricing of
services ona marginal and fully allocated cost basis.
3.3 An Example of Use of the ICEEM: Principle Assumptions
Special consideration has been given in designing the urban TICCIT
system, minimizing the hardware investment required before actual
market penetration is known. Through cross-wiring, only one-sixth
of the expected ultimate investment in computer and.other electronics
for the chosen example system (see Table II) needs to be undertaken
29
TABLE IIEXAMPLE SYSTEM DATA
A. NUMBER OF HOUSEHOLDS PASSED BY CABLE
B. PENETRATION (AVERAGE) PERCENTAGE:
26,680
YEAR 1 2 3 4 5 6-20 AVERAGE
HIGH
ONE-WAY 12 32 47 50 58 76 61.23
TWO-WAY 7.5 20 30 37.5 42.5 47.5 38.27
LOW
ONE-WAY 6 16 24 30 34 38 30.62
TWO-WAY 3.75 10 15 18.75 21.24 23.75 19.14
C. BASIC SYSTEM - NUMBER OF CABLE MILES - 76
D. TICCIT SYSTEM - NUMBER OF CABLE MILES - 107.5
30
in the initial stages. The moderate increases in wiring costs are
completely offset by the interest savings and reduction in investment
risk.
As previously discussed, if the cost of capital has been set at
12.4%, after-tax rates of return on equity in the range of 12-20%
may be expected (depending upon the particular financial circumstances,
expecially the strength of the system owner). An inflation rate of
3% per annum is assumed to apply equally to costs and revenues.
The duration of the franchise and the economic life of cable
distribution plants both have been set at 20 years.12
All electronic
equipment -- home terminals, converters, and electronic equipment in
the local distributibn center or subheadend and headend have been
assigned an economic life of five years. The actual, physical life
should be much longer; the five-year life is assigned principally
because of expected obsolescence resulting from cost reduction and
improved performance. This assumption is conservative since replace-
ment equipment would have to be both cheaper and better, to justify
the short economic life. This has not taken into account projecting
replacement costs.
The unscrambler provides a first level of security, achieved
through selective gating of access. It is recognized that higher
levels of security, involving actual scrambling, would be necessary'
12Previous-financial analyses of cable systems have assumed system sale
after 5-10 years. Assumptions about the sale price significantlyeffected the over-all results.-- the tail wagged the dog.
31
if sensitive material sere to be transmitted. The TICCIT
system, analyzed, uses digital central refresh with the hub configura-
tion. At maximum assumed market TICCIT penetration (50% houses passed
by the cable), the maximum-assumed possible usage rate is 5% of sub-
scribers at any one time. Queueing considerations may reduce this
figure by 10-40%, depending on acceptable wait times and probability
of getting a busy signal.
The analysis is conducted on an incremental basis. The base
one-way system has twin cable with set-top converters. Eventually,
the system has a two-way capability; however, the second cable is
quiescent (amplifiers not installed).
Table III shows a breakdown of system componentscosts that are
based on our estimates for limited quantity production within the
near term.
3.4 Results of Example Application of the ICEEM
In the analysis conducted for a hypothetical system, a section
of Washington, D. C., with a total of 26,680 households was passed
by the cable. Separate penetration profiles are projected for one-
and two -way services, and sensitivity analyses are conducted for
high and low penetration profiles. System data are shown in Table II.
Results are in terms of required monthly revenue. This is the
revenue required to yield a-12.4% rate of return on total invested
capital over the 20-year life of the system. Values are given for
the high- and low-penetration assumptions.
32
TABLE IIILISTING OF COMPONENTS AND CAPITAL COSTS
OF DIGITAL CENTRAL REFRESH SYSTEM
AT HUB:
DOLLARS
COMMUNICATION PROCESSOR 21,000
MAIN PROCESSOR 26,000
PERIPHERALS 95,000
KEYBOARD DATA MOD/DEMOD 5,000
REFRESH CONTROL ELECTRONICS 10,000
CHARACTER GENERATOR 7,000
CHARACTER SWITCHER 3,000
DIGITAL MEMORY 72,000 (o.62 x 116,000)
NTSC ENCODER 116,000 (1.0 x 116,000)
VIDEO MODULATOR 58,000 (0.5 x 116,000)
SIGNAL SCRAMBLER 11,600 (0.1 x 116,000)
COMBINER/SPLITTER 6,000 (0.5x 12,000)
TOTAL: $430,600.00
TERMINALS:
HOUSE DROP
CONVERTER
UNSCRAMBLER
DATA MODEM
ENCODER/DECODER, KEYBOARD
HUB COST PER SUBSCRIBER
TOTAL:33
40.
27
25
200
292
203
$495.00
For the base case, one-way services only, required monthly
revenue is $5.78/$9.3313
for high-and low-penetration, respectively
(see Table II). Halving the penetration rate increases the required
revenue per month by 61%, indicating strong sensitivity to penetration.
The required monthly revenue per subscriber assumes an installation
fee of $5.00. Revenues from pay television, second outlets, adver-
tising, and channel lease of the 60-channel system would result in
required monthly charges for basic services somewhat lower than the
gross revenue requirements.
Required monthly revenue for the TICCIT system alone, on an
incremental basis, is $13.73/$14,9013 for high and low-TICCIT pene-
tration, respectively. The average high-TICCIT penetration is 38%,
low is 19%. Phased TICCIT is rather insensitive to penetration; a
halving of penetration results in only an 8.5% increase in the
revenue requirement per subscriber. Combined monthly charge for
TICCIT and basic services is $19.51/$24.23. This is within the
rallge of the average monthly telephone bill.
3.5 ,Analysis of Front-End Investment and Cash-Flow Calculations,
for Example
The basic one-way system would require a front-end invest ent
of $1.53 million, and an additional investment of $67 per added sub-
scriber. The combination one-way and TICCIT system requires a fixed
13Also, see Table IV, Section 8.0 for run at high penetration. Resultsare shown in terms of required annual revenue. Some figures in thetest are not, derived from the sample output (Table IV), but from othercomputer runs.
34
investment of $2.38 million: $1.53 million for the basis system,
plus $0.42 million for the additional cable and equipment associa-
ted with the hub configuration, and $0.43 million (see Table III)
for the hub itself. The additional investment for the combination
one-way and TICCIT system is $202 million.
As far as hardware costs are concerned, TICCIT requires a 56%
increase in front-end, fixed investment, and a six-fold increase in
incremental investment cost. However, at least at the hardware level,
financial risk is not great, since even a minimal market penetration
for TICCIT, at the indicated charge level, would provide the 12.4%
overall rate of return on the TICCIT portion of invested capital.
The major source of risk is the investment in computer software
acid courseware that wou'id be required to make TICCIT an attractive
service. The first large-scale interactive system would have limited
program material to draw upon, and would have to bear substantial costs
of software and courseware development. This would be recouped;
by sale or lease to subsequent systems in other cities, providing the
initial experiment proved successful.
In addition to providing information retrieval and computer-
aided instruction, TICCIT is capable of point-to-point message
forwarding (useful in electronic banking), and message and telegraph
services. TICCIT's polling capability is an important feature in the
feasibility of pay television because it permits automatic billing
and sampling of program popularity in general. The scrambler used
for TICCIT could also serve for pay. television.
35
Table IV is a sample print-out from the ICEEM program, which
shows the results of the run that determined the required monthly
revenue for combined TICCIT and one-way services, under the assumption
of high penetration.
As indicated, a positive cash flow is projected by the second
year. This is predicated upon rapid completion of the system construc-
tion. Under the financing plan shown, a profit position is achieved
by the fourth year. If the project were put on a 'Lase-back arrange-
ment, prpfitability would be achieved by the fifth year. Using 80%
debt financihg-at an 8% cost of'debt, a major MSO could achieve
a 20% after-tax rate of return on equity. Due to reduced financial
leverage, smaller cable system owners would achieve the equity rate
of return listed in Table IV of Section 11.0 as 17.03%. This trans-
lates into 13.69% when adjusted for inflation and corporate income
tax.
36
TABLE IV
'TFE HITAE INTERACTI\!E CAELE ECCPCMIC EvAl.LrTICN MCOEL
A FINANCIAL CAPITAL ELLCETINC PLANNING Pki,C,PAm
PHASED DIGITAL CFNTRAI RFFRESF F.ICF RENFTRATICN
1-5. LOuIPMENT CCSTS CN A FFR LNIT ANNLAL EASIS
BASIC EQUIP
HONE TERMINAL
LOC LIST
CTR
--,
SUB-HEADENO
HEAO2ND
FIRST COST
E7.00
422.CC
C.0
3E5000.00
96111.00
EXP ECON LIFE
5.00
5.00
0.0
5.00
5.00
AmCRTIZATION
17.22
110.40
0.0
55572.13
25167."44
mAINT-LAECR
4.2C
11.28
0.0
.144.0C.00
16400
mAINT-MATERIALS
2.ES
15.62
0.0
730C.00
1900.00
vLhICLE-CPEREANCR
C.75
-
C.75
0.0
,3ECOC.00
0.0
FACILITY RENTLMAIN
0.0
3.13
0.0
1315C.GC
2778.00
ON-SITE P.ERS
000
5.40
0.0
216CC.00
8CC0:00
YEARLY TOTAL COST
25.52
150.59
0.0
242028.13
394A5.44
6. TRUNK AND FEEDER LINES
TRUNK LINES
ABCVE GROUND CCNSTRUCTICK
11000.00
S/MILE
X32.45
MILES
=$
356593.94
UNCER GROUND CCNSTRUOTION
16C00.00
S/MILE
X7.00
MILES
=S
126GOC.00
DUCT CONSTRUCTION
25C00.00
S/MILE
X1.40
NILES
=$
34999.99
TOTAL CONSTRUCTICK
S517993.88
AMORTIZED CONSTRUCTION
58126.40
FEEDER SYSTEM
AEOVE GROUND CONSIRLCTICN
11000.00
S/VILE
X54.0C
NILES
=$
594C00.00
UNDER GROUND CCNSTRUCTICK
18000.00
S/MILE
X14.CC
MILES
=$
252000.00
CLCT CONSTRUCTIuN
25000.00
S/MILE
X2.80
NILES
=$
65595.94
TOTAL CONSTRUCTION
S915999.94
AMORTIZED COKSTRuCTICK
102788.44
TRLNK
LINES
PCLE
RENTAL
17C.00
S/NILE
X32.45
MILES
=$
5517.18
CUCT
RENTAL
3250.'CC
S/VILE
X7.0C
NILES
=$
22750.00
LINE
MAINT LABOR
280.0C
S/MILE
X39.45
MILES
=$
11047.12
LINE
MAINT MATERIALS
60.00
S/PILE
X35.45
MILES
=S
23E7.24
POWER
20.G0
S/VILE
X35.45
.MILES
=$
,/89.08
TOTAL
VARIABLE CCST
$4247C061
FEEDER SYSTEM
PCLE
RENTAL'
170.00
SMILE
X54.0C
NILES
=$
9180.00
CUCT
RENTAL
3250.00
S/MILE
X14.00
NILES
=$
45500.00
LINE
MAINT LABOR
280.0C
S/PILE
X68.00
; NILES
=S
15040.00
LIKE
MAIN1 MATERIALS
60.CO
S/M1LE
X68.00
NILES
=S
4C30.00
POWER
20.00
S/M1LE
X6e.00
MILES
=$
1360.00
TOTAL
VARIABLE CCST
-______
$79160.00
7. OVERHEAD SYSTEMS COSTS
FIRST COST
S5C00.
EXPECTED ECON LIFE
7.
YEARS
AmCPTI24TiON
$597.EE
FCC FEE
S0.30
PER BASIC
SLBSCRIBER
OLES TU TRADE ORC. S
C.36
PER BASIC
SLBSCF.IBER
TRAvFLGENTERTAINMNT1
C.C5
PER 2AS1C
SUBSCRIBER
OFFICE SUPPLIES
10.60
PER'EAS1C
SUBSCRIBER
LEASE ON AUMIN BG
10.0
GEN MAINTEUTILITIESS
1.00
PER BASIC
SUBSCRIBER
PAYROLL
S 1355)G.00
COPYRIGHT
0.0
PERCENT OF
BASIC REVENUES
EsAL: °ERIS
C.0
PERCENT OF
REVENLES
INSURANCE
1.00
PERCENT
PROPEPTY TAX
C.0
PERCENT
FRANCHISE TAX,
C.0
PERCENT OF
REVENLES
SELLING C ADvER
41.00
BASE RATE
mICFO-RAVE RENTAL
$
OPERATING CA.Sm
41.00
PERCENT OF
TOTAL COSTS
PROF SERVICES
SC.10
PER EASIC
SLBSCRIBER
PREGRAMMING PERS
47240C.00
pREGR OPER xPENSESS
21S8C.00
PAY TV MATERIALS
-$
C.0
PER BASIC
SUBSCRIBER
SYSTEM SOFTRARE
S2700.CC
SYSTEM COURSEwARE
$C.0
PRE - OPENING EXP
YEAR
S4667C.00
12
34
c..
6 -20
AmCR., OFFICE ECUIP
S55e.
999.
sse.
S96.
998.-
,5560
FCC FEE
SSCO.
2561.
3242.
4902.
5443.
6.083.
DLES To TRADE CRC.
$1153.
3074.
4E1C.
57E3.
6531.
73CC.
TRAvELEENTERTAIN.
4500.
500.
640.
800.
907.
1014.
UFFICE SUPPLIES
S1521.
5123.
7E84.
5605.
10685.
1216E.
LEASE ON ACM IN 8G
SO.
.._ O.
C.
-O.
O.
O.
GEN MAINT C LTIL
$3202.
8539.
128CE.
16008.
18142.
20277.
PAYROLL
1135500.
13550C.
135500.
135500.
1355uu.
13550G.
CUPY,JIGHT
SO.
C.
..
0.
C.
'
O.
C.
OAC OLLSTS
$0.
O.
C.
O.
O.
C.
INSURANCE
S19001.
15001.
19CC1.
15001.
15001.
19001.
PRCPEP.TY TAX
S0.
0.
0.
C.
0.
C.
FRANCHISE TAX
1C.
C.
C.
C.
O.
O.
SELLING E ADVER
S6403.
253E.
1280E.
8530,
10672.
12006.
PICRD-WAVE RENTAL
S10000.
10000.
10000.
10000.
10000.
10000.
t. PER CASH INTRST
11532.
2342.
2553.
3472.
3758.
4123.
P.-14- SERVICES
$500.
d54.
12E1.
1601.
1614.
2028.
ANRIILFD PRE - OPENS
5155.
5155.
5155.
5155'.
.5159:
5155.
PRO6PAMMING PERS
17240C.
72400.
7240C.
72400.
J2400.
7240G.
PiLuR UPER ExPENSESs
21583.
215118.
21960.
21960.
2113E0.
21S6C.
PAY TV MATERIALS
$O.
C.
C.
O.
O.
0.
SYSTEM SUFTi.,AkL
S2700.
2700.
2700.
2706:
2700.
2700.
SYSTEM CuGRSERARE
4^ ..
.O.
O.
Co
O.
C.
TOTAL
42E30e.
25S265.
314400.
318326.
325930.
333534.
O
8. PENETRATICN ANC SYSTEP
ASSUPPTICNS
YEAR
12
34
56-20
wFIGHTEC AVERAGE
NO OF HOUSEHOLDS PASSEL
BY CABLE
26680.0C
2E6E0.00
26680.00
26680.00
°'26680.00
26680.00
25328.79
% BASIC PENETRATICN
24.0C
40.00
5E. CG
64.00
72. C0':
80.0
61.23
X TICCIT PENETRATICN
15.0C
25.00
35.00
40.00
45.0
50.00
38.27
BASIC SUBSCRIBERS ey ENE-YR
64C3.2C
10672.00
14940.8C
17075.20
192C9.60
21244.00
16337.07,
TICCIT SUBSCRIBERS BY
ENE-YR
40C2.CC
,6670.00
933E.00
10672.00
12CCE.00
13340.00
10210.64
SYSTEM ASSUMPTIONS
NC. OF SuBHEACENCS
NO. OF LOCAL DISTR
CNIRS
6
CCNSTRUCTION STARTEC
2.0
MONTHS
BEFORE REVENUE FLOW
CH/R6Es AND REVENUE PER
SUESCRIBER
CONNECTION FEE
5.0
FER
BASIC CONNECTION
BASIC FEE-ONE WAY SERVICE
S69.34
PER
SLBSCRIBER/YR
TICCIT FEE-INTERACTIVE
SERVICE
$1164.79
PEP
SUBSCRIBER /YR.
COMMERCIAL INTERACTIVE SERVICE
S1
O.0
FER
RESICENT/YR
PAY TELEVISION
S:
C.0
PER
BASIC SUBSCRIBER/YR
ACAIEKTISING-LOCAL CRICINATICN
0.0
PER
BASIC SUBSCRIBER/YR
LEASED CHANNEL-LOCAL CRIGIN.
O.0
PER
BASIC SUBSCRIBER/YR
PHLSEU DIGITAL CENTFAE FEFREEF FIcfr PENETRATIoN
9. <INANCIAL A5SGmrTicNs,CIPITAL INVESTMENT E CASE FLO6
FINANCIAL ASSUMPT1LNS
EQUITY COST OF CAPITAL =
°LET COST OF CAPITAL =
ECLITY CONTRIBUTI0N =
CPFURTUNITY COST CF CAPITAL =
RATE OF INFLATION =
AUJ OPPORTUNITY CCSI C6. CAPITAL=
ACJ DEBT COST OF CAPITAL=
CAPITAL INVESTMENT
30.00
6.00
2C.00
12.40
3.00
S.13
4.85
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
YEAR
01
23
4.
56
CASIC E0uIP
s
TICCIT EOU1P
$
LOC DIST CTR
SUE-HEADEND
S
HEAD-END
TRLNK SYS
FEEDER SYSTEM $
GEN EQUIP
PRI-GPENING
$
TOTAL
O.
365CCC
5611 I.
517554.
516000.
5C0C.
466/C.
1946-474.
429014.
286010.
286010.
143005.
143305.
143[05.
1712855.
1141904.
1141902.
570952.
570952.
570S54.
2141665.
1427913.
1427911.
713557.
713957.
713558.
PROJECT CASH FLOW - NEGATIVE NUMBER IS
YEAR
0
CASE. CUTFLCk POSITIVE NUMBER IS
12
CASH INFLOW
3,4
56
GRCSS REVENUE
5E6561.
1501197.
2241123.
2735357.
2155359.
2525224.
VARIABLE- COST
-671375.
-863929.
-1020814.
-1131062.
-12C9540.
-1258320.
NET REVENUE
-6441E.
637268.
122030E.
1654335.
1945819.
2237304.
ADCITION TO RORKIAC CAPITAL
-12354.
-6529.
-5252.
-3865.
-2626.
-2626.
CAPITAL ADDITIONS
-1946774.
- 2141869.
- 1427913.
- 1427911.
-713957.
-713957.
-713958.
LASH FLOW
-1946774.
-223E641.
-797174.
-212055.
936513.
1225235.
1520718.
EwuITY CASH FLOW ASSUMING EC.CC PERCENT
FINANCING AT AN
INTEREST RATE
OF
8.00 * ACJLSTED FOR
3.00
ZINFLATION
GROSS REVfNOE
5E65(1.
1501157.
2241123.
2785397.
2155859.
2525324.
vAkIABLP COST
-671375.
-863529.
-1020314.
-1131062.
-120554D.
-128L.920.
REVENUE
-64418.
637268.
17203-0E.
16'4335.
1945615.
2237304.
AcutTICN TO .ORKING CAPITAL
-12354.
-6524.
-3:252.
-3065.
-2626.
-2b26.
DEBT REPAYMENT
-477939.
-706A22.
q69217.
-1166249.
-1257E94.
-1425387.
BORRowFD FUNCS
1557419.
1713455.
1142330.
1142328.
571166.
571165.
571167.
CAPITAL ADDITIONS
-1946774.
-2141819.
-1527513.
,1427911.
-713957.
-713557.
-713958.
LASH FLOW
-389355.
-403085.
-361161.
-39734.
341379.
5C27C6.
662797.
ThE MITRE INTERACTIVE (PELF LECNOIC
EVALUtTICN MOCFL
A FINANCIAL CAPITAL eLLCLTIN6
PLANNING PRCCRAM
PHASED DICITAL CENTRAL PEFRESh FIbF
PENETRATICN
10. COSTS ANC REVENUES
YEAR
SYSTLM hEVENUES
12
I
45
6-20
PRESENT VALUE-TOTAL
CCNNCTION FE=1-$
3t21E.
2c882.
3415C.
CASK Y9Ly
s221595.
551947.
ee7595.
TICCIT YkLY
$325745.
879315.
1318578.
a:NW-CR-INTERACTS
C.
C.
0.
PAY TELi-VISIM $
C.
0,.
O.
;,LVEk REVLNUL
SC.
O.
0.
CHANNEL LEASE
SC.
C.
C.
TOTAL
.$
5E6561.
15C11910
2241123.
SYSTEM vAPIALE CCS1S rcxCLLCES
ANCRTIZATICN)
2668C.
1109994.
1648723.C.
C.
"
C.
O.
27E5397.
26814.
1257993.
1868552.0.C.
0.
0.
3155359.
30949.
1405993.
2088383. 0.
O.0.
O.
3525324.
25752384.
-;
6ASIC E4U-IP
.$
2c-.1.
7035C.
105525.
131906.
149493.
167081.
..)
TICCIT hwuIP
S8042C.
2144:4.
32168C.
402101.
45571'4.
509327.
..
LOC DIST CTR
Sr
C.
-C.
O.
O.
0.
SUP-mEADEND
S15245C.
15;.45C.
15245C.
15245C.
152450.
152450.
-FADENO
S14270.
14276.
14278.
14278.
14278.
.14276.
-LNi LINES
542471.
42471.
42471.
42471.
42471.
42471.
EDER LINES
S791LC.
75160.
7916C.
7516C.
79160.
79160.
6,./FR-HEAD PO-
S27t22C.
290767.
305250.
3C8697.
315976.
323254.
TOTAL
S671275.
862529.
102C814.
1131062.
1209540.
1288020.
10364591.
SYSTEM TOTAL COSTS
hASIC EQUIP
S8171C.
211892.
326E40.
4C8550.
463023.
517497.
TICCIT EQUIP
S301322.
EC2527.
12C5290.
15C(b13.
1707495.
1908377.
LCC DIST CTR
SC.
C.
G.
C.
O.
0.
SUE-HEACENO
S24EC2E.
24E022.
248C28.
24002e.
2480:8.
248028.
HEAVEND
S25445.
25445.
39445.
39445.
39445.
39445.
ThLNK LINES
SICC557.
1C.C557.
10C:97.
1CC597.
100557.
10.0597.
FEWER LINES
Ilei,:.
16194f.
1E1548.
181948.
181548.
1E1948.
OVER -HEAD EXP
S262sC8.
255265.
314400.
31832E.
325930.
333534.
TOTAL
S123695E.
i-,VENUE- MINUS TOTAL CLST
1d9)702.
2416546.
280350E.
3066465.
3329424.
25752592.
NET PRESENT VALUE
LV -TGT coST
-645557.
-3b5505.
-17:423.
-18109.
88894.
155900.
-208.
,v-CUST/t,
SU
A-2C3.C2
-13.70
-1.13
4.90
9.66
-0.00
1.EIGHTE0
PvERAcp
,=.E,-COST/T S
-224.E4
-73.CC
-21.52
-1.81
7.84
15.46
-0.00
YE1GhTEC
tVERAGE
41:4
1'1
11
12
4
1)
1415 I ;
17 t
14 '
19 A X 4
2.)
.4 5
'4;
2, 4
ThE MITNI
CAME FCONUNIE EVALLATICN MODEL
F1N4NLi
CWII/1 FLCEETINC PLANNING PRCGRAM
PHASED DICITAL CENTFAL FEFRESF FIGF PENETRATION
11. PREScNT VALUE ANC KATE CF PETUFN CALCULATICNS
FFOJECT KATE OF PtTu4N IS
9.13 PERCENT
Ek.LITY RI.TE OF RtTLrN IS
17.63 PERCENT
ASSUMED SALES VALLE ENG CF YEAR 10 IS
S125C266.
PRCJLCT
0ISC. RATE
0.FV FRLS VALUE
1 24
2 b4
7C z
'1 /
4,
A 34
1;
356
5E41412E.
5C5c4:376.
45:?5EdC.
4112545c.
272e1264.
32;41104.
3C556432.
26i25.5.2C.
23Sr.S168.
221314JE.
15C34512.
1/11612t.
16.%c24i.
154i6263.
144E4301.
136,-31437.
12:57574.
12C62512.
112;2754.
1011/296.
10'21191C.
SeS1227.
';'41C764.
81,6(.34.
2.!tt2lt.
7',7341e.
7c1d506.
7.14:eC45.
6C/9792.
te.91Elt.
.6122273.
cic9928.
S,;32C21.
PkOJLET
PROJECT
CCST PRES VALUE
NET PRES VALUE
NET
OMITVYALUF
47344224.
(;C69,,C4.
"6''''
6293296.
43362432.
53592E0.
25871168.
4558424.
-
75(2_=:
3L7S904C.
433t416.
387C304.
34CE7728.
3203536.
327(7=8.
2.14E624C.
2234864.
25553056.
'
1403776.
2217461.
27652368.
6b8656:
15256E6.
25554CS6.
71424.
1591266.
24431824.
-462656.
1295143.
23C63552.
-926144.
113528E.
218'3032C.
-1329488.
806654.
20715584.
-16b1472.
E014992.
157C60C4.
-156932H.
426487.
167E8512.
-22'd9245.
2636E2.
1795288C.
-24';6617.
1282EC.
171;0112.
-2705605.
16451929.
-?fr;W:)C2.
10.f15)1::
15E51455.
-:053919.
-207552.
15242752.
14720439.
-315db41.
-297251.
73773E5.
14219658.
-2327645.
-3442262.
-,449420.
12/56353.
-3544477.
-5142840
133269e7.
-572771.
-3615770.
12528156.
-3717432.
-625607.
12557264.
-3750(30.
-673356.
-11667C:'
1221146E.'
113E8E15.
:Mt2-1.;:::
-7559C0.-,"
--7,4152E.
115867C5.
-3C681S4.
.
.113C3969.
110266SE.
10789467.
10554CE3.
10334113.
101256S3.
-401592V :0
-E231c5.
-4058963.
-853341.
-4097652.
7k7e014a.
-413i610.
5:04562.
-41641E5.
---926825e
-4192672.
-54712S.
4.0 OPERATIONAL CONSIDERATIONS FOR INTERACTIVE TELEVISION
Since interactive television must compete for subscriber time with
conventional TV and other educational and leisure-time activities, it
is not enough to develop just the technology to deliver interactive
services, Attractive examples must be identified, the means for their
produttion developed, and the markets selected for the chosen services.
These fundamental steps must be taken it the first, large-scale demon-
strations of interactive television, with the awareness that the poten-
tial subscribers will help in the decision process, as they accumulate
experience with interactive TV, and what it has to offer. It is desi-
rable that the results of these first tests be generalizable to the
broad spectrum of potential users. The early investment in interactive
television programming will be extremely limited (in comparison with
commercial television programming), and the operation and selection
of the test site must maximize the benefit/cost ratio.
In this section, the major operational considerations for an
interactive television trial are summarized. Later, in Section 6,
operational recommendations for a "quick thrust" data-gathering
experiment are summarized.
4.1 The Management Task
Management systems are needed to formalize the process of trans-
forming ideas into operational services. For conventional TV, the
need for management of program material development has not been
required. The task of devising the mechanisms needed to develop
44
program materials for two-way systems has been deferred until the
time when services were selected. That time is now, and the task is to
require a mixture of pragmatism in the face of practical limitations
and a flexibility that will allow the unexpected -- possibly unique --
'interactive services.
The technology has been invented, developed, demonstrated, and
evaluated; analysis has shown interactive television has the potential
for viability. Meanwhile, the list of 'possible" services to this
communications-dependent society is growing rapidly. Management sys-
tems to handle the product ion and delivery of interactive services
must be devised, developed, demonstrated, and evaluated, just as the
technology has been.
Management starts by identifying the resources. The first inter-
active services will probably be based on existing program material.
Vast libraries of.film and videotape, both in the private and public
domain, are available as'a.resource for interactive presentation. A.
second source of material is the growing body of educational-programs
designed specifically for computer control and display. This Baterial
has been developed for deliveny within the school or college frame-
work. Delivery into homes will require new management techniques.
PerWaps the most potent resources will be the users themselves.
The ingenuity and enterprise of individual subscribers, local societies,
and the community leaders to advertise, announce, claim, disclaim,
45
or, in short, to communicate, will very possibly_develop useful,
even wealth-creating services and functions.14
An NSF/MITRE review panel will monitor sources and delivery of
services. It would be a serious mistake to settle prematurely on
one particular way to utilize each resource, even if first trials
are successful. The single, most powerful aspect of interactive tele-
vision, properly interpreted, is the viewer's real-time response during
or following the use of each service. The delivery services must be
managed so that each subscriber's activity is logged.
Finally, the management system must provide rewards and motives,
new markets must be developed. Analysis of subscriber usage and re-
sponse for each class of service, plus the suggestions from users
themselves, will form the basis for modified and expanded services.
4.2 Selection of Candidate Services
The selection of interactive services presents a considerable
challenge. Many more aspects than those that make up an engineering
experiment must be considered.
First, there is the question of the type and value of the inter-
action. The services. include, among many others, instruction', enter-
tainmentz companionship, and employment, each piggy-backing, economically
speaking, on the others. Each introduces value siftems with separate,
possibly conflicting criteria. Second is:the question of interpreting
the response, understanding the reaction of subscribers. Therein lies
14Thompson, Gordon B., Moloch or Aquarius?, Issue IV (February 1970).
46
our major indication as to the merits of the delivery system. In par-
ticular, the choice of services must be made with an awareness of the
instructional and community fabric that may be affected.
The first of the two panels of specialists convened in June, under
the chairmanship of Dr. Lloyd Morrisett, discussed interactive TV ser-
vices from the vantage points of .the panelists' expertise in communica-
tions and-education, the social 'sciences, and programming for the
print and television media. The panel-ists agreed that popularity and
frequency of use shOuld be our social indicators. The MITRE staff has
investigated a number of potential-impact areas, constituencies. (the
aged, preschool children, etc.), and activities (career education,
health-service delivery), but the panel contended that pilot.services
directedto specific problems in such areas would not make the best use
of the prototype distribution system. Special problems must have spe-
cial programming, which is costly and time-consuming to produces-and must
show progress in a specific situation that requires the development and
then the interpretation of special social indicators.
The June panelists enjoined us from reinforcing the "duplex society"
syndrome by providing interactive television supporting only the needs
of a chosen-few. Thus, earlier ideas of demonstrating the success of
interactive television services by some specific improvement in a speci-
fic social service has been replaced by the general philosophy, that in-
teractive services must first compete successfully for the subscribers'
time. The total package must appeal to peOple who differ widely in
economic. status, education age,.abd ethnic background, before itcan
-47
become a practical carrier for special interest services. Tables
V and VI list the June.and August panels, and, their suggestions.
We have made.an exhaustive search of the literature concerning
experiments and techniques that have been proposed to measure the use-
fulness and effectiveness of communications 'Systems. While there is
a considerable body of theory and philosophy concerning such measure-
ment and forecasting possibilities, we have not found a technique that
we could consider pract4.cal in the time frame we are trying to meet
for the selection of'the service options, system distribution options,
and operational strategies.
It should be pointed out, however, that everything we have read
reinforces our belief 'that computer-nThdiated interactive television can
have a revolutionary effect on national communications. Interactive
television incorporates the essential parameters for such a revolutionary
capability. It provides access to everyone; it provides from within
the communications media itself a Techanism (i:e., the common computer)
for structuring and manipulating the material communicated. Thus, a
common body of understanding and insight is furnished by the media for
the communicators. Further, it provides from within the mediumitself
a basis for developing a concensus on the subject being addressed by
those involved in the' communications
While the time-shared computer has been recognized as a device that
could support these desirable characteristics of a new communication system;
15Thompson, Gordon B., Moloch or Aquarius ?,, Issue IV, February 1970.
48
TABLE V
LIST OF THE JUNE PANELISTS AND THEIR SUGGESTIONS.FOR SOCIAL NEEDS
Panelists
Mr. Franz Alina',Dr. C. Victor Bunderson__Mr. W. Bowman CutterDr. Bernard Gifford.Dr. George KennedyDr.- Gerald S. LesserDr. Lloyd Morrisett, Chrm.Dr. Edwin B. Parker
Dr. Ithiel PoolDr. John RileyDean Alvin L. Schorr
Social Needs Suggested
INSTRUCTIONAL TRAINING:
CAREER EDUCATION:
PARTICIPATORY DEMOCRACY:
READING AND MATHINSTRUCTION:
HIGH-SCHOOL EQUIVALENCY:
EMPLOYMENT-OCCUPATIONGUIDANCE
CONTINUING EDUCATION
DAY-CARE SERVICES:
MEDICALANFORMATION-
CONSUMER-CITIZEN ASSISTANCE:
PARTICIPATORY GROUPSINTERFACE:
Affiliation
Children's Television -WorkshopCAI Lab, .University of TexasCable Tele:vision Information CenterNew York 7-tand InstituteHigh-Scope Educational Research Fdn.CTW and Harvard Grad Sch. of EducationThe Markle Foundation
"S,tanford Univ. Institute for Communication .Research
Political Science Dept., M.I.T.Equitable. Life, New YorkNew York Univ. Grad .Sch. of Social Work
For both teachers and parents.
For both children and adults.
Covering contemporary community issues.
Both basic and remedial.
Covering vocational training, tutoring' for"home-bound" persons, and interactiveparents-children (game -type) activities.
Reinforcing para-professional preschool childcare personnel.
Both preventive and emergency.
Covering day-to-day living concerns such asthe legalities of wills and contracts.
Such as shut-in widows, high-school dropouts,_etc. all of those who have recurring needs
that are not being met satisfactorily.atpi-esent.
49
TABLE VI.
LIST OF AUGUST PANELISTS AND THEIR SUGGESTIONS FOR"POPULAR" SERVICES
Panelists
Mr. Lewis FreedmanMr. James A. LippkeDr. Lloyd Morriwtt. Cum.Ms. Theodora SkloverMr. Robert D. SmithMr. Charles E: Tate
Popular Services Suggested
Affiliation ,Hollywood Television TheaterBroadcast Management/EngineeringThe Markle FoundationThe Open Channel
' WNVT (Channel 53), Northern VirginiaThe Urban Institute
AUCTIONSReal time live or elapsed (bidding will close at noon).
COMMUNITY FORUMCons'ensus recognition and disemination by the -computef grouping pro and concommunity questions.
I001 ANSWERS,Pooled community experience on 'Mow to:"Who to. "when to." programmedor bulletin board format. An experience catalog.
EVERYDAYTHERAPYInterpretation of dreams discovery of people with similar problems. groupingfor mutuaLassistance (with anonymity if required) sensitivity tapes.
EQUAL TIME FOR THE CONSUMERLegitimate gripe board exposing "less than better" business practices.,
RELIGIONContributing to and.sharing liturgical experiences..
THEATRE GAMESRole playing simulation of results from alternate courses.Of action (domestic and/or community).
MUSIC AND DRAMAComputer organ in your home sings along playreadings poetry workshops.
WORD GAMESScrabble anagrams password tcee word construction.
GAMINGPoker.-- BlackAack new games unique to TV playing versus the machine or
. other people-. «,:,
(continued).
50
TABLE VI (continued)
COLLECTORS NETWORKSharing the enthusiasm of possession.
PHYSICAL FITNESS/DIETINGSpecific exercises/menus for subscribers' problems.
AUDIENCE PROFILINGMechanism for response to services who's new in town, their skills and hobbies
community resource data bank.
ACCOMMODATIONTo rent or sell house sitting, exchanges.
. SWAP/THRIFT SHOPStaffed by volunteers for charity, hospital funds, etc.
RAINY DAY ACTIVITIESPlans and:directions for games and projects to fill childrens shut-in hours with funlearning activities.
51
the question of access to such capabilities -has heretofore not been
successfully addressed. Now, computer-controlledinteraotive teleVi-
sion provides many points of access, making them available to a wide
range of people and instit \tions. The system-we are demonstrating
in Reston (and will better Aemonstrate in Phase II) provides these
essential ingredients for the "ideal" communications system, whether
or not a truly successful set of services can be immediately identified.
The second panel; which Met in August, was asked to generate ideas
for the following:
Computer Content: Entertainment and informal instructton.pro-
grams unique to the interactive delivery Moa.,
The Communications Function: The ,computer-mediated-format in
. which new communication links between people may be'developed
in community life, companionship, and personal problems.
The panelistsY suggestions and priorities are discussed in Volume
III. Tables III and IV in this report summarize the applications de-
veloped by the panels. In addition-: the August panel strongly recom-
, 2-
mended that:
o Representatives from the fields of education print media, and
the cable and TV industries should be selected and organized
into a working team to provide a sounding board for a continuous
program.
MITRE should start negotiating now with pilot-city candidates, A
and.a.site should be. selected as soon as possible. Existing
52
institutions in the candidate pilot-city communities should
be used as a major source of ideas on applications.
In summary, a considerable body of material has been documented
concerning potential services. It is time to move the program on
from generalities to specifics, to proceed to an empirical program in
an operational environment, starting with services subjectively chosen.
Services for families in Reston during the next seven months have al-
ready been chosen. Table VII gives an attractiveness rating to
an important subset of the panelists' suggestions for services in
Phase II and III.
4.3 Selection of Candidate Sites for an Eventual Urban Center Trial
of Interactive TV Services
In the selection of candidate Phase III implementation sites, the
requirements of a successful demonstration and evaluation must be ba-,
lanced against the relevance of these requirements to the needs of other
U. S. cities. Accordingly, summary information has been compiled to:
o Identify all cable systems in the United States that have the
technical capability to accommodate interactive television
demonstrations, or that will have such a capability by the
summeflof 1974, when Phasa III of our study will begin.16
o Provide certain additional information about the system, its
operation, and the city in which it has been or will be built
that can serve as a basis for preliminary narrowing down of16Pilot Projects for the Broadband Communications Distribution Systems,Malarkey,'Taylor, and Associatet, November, 1971.,
53
0.1
TA
BL
E V
II
RA
NK
ING
OF
SER
VIC
E P
AC
KA
GE
FO
R H
OM
E D
EL
IVE
RY
Popu
lari
tyL
egal
Prob
lem
s
Inst
&Po
litic
alPr
oble
ms
One
Tim
eC
ost
Ear
lyT
echn
ical
Feas
ibili
ty
.
Soci
alIm
pact
Tot
alC
ivic
Mee
ting
s/i'a
rtic
ipat
ion
2 _0
-1!
13
6B
ulle
tin B
oard
30
11
, _1
8E
duca
tiona
l Gai
nes
11
01
-,1 _
8Fu
n G
ames
31
11
2 -O
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erie
nce
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alog
1 _1
-11
11
5Pe
rson
-to-
Pers
on o
rG
roup
Mee
tings
10
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tions
11
-11
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catio
nal S
imul
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26
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ploy
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omm
odat
ions
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oria
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ew a
re c
aptiv
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a tr
ue p
opul
arity
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king
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ht h
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Ieas
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he s
m.ia
lco
mpa
nion
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ill tc
ult
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c m
ight
rat
e th
is it
em v
ery.
/110
, how
ever
.
candidate sites to those that should receive further study
before final choice of a site for the Phase III demonstrations.
---__The Federal Communications Commission's new cable rules, promul-
gated on March-31-i-1972, require that new cable systems in the nation's
-top 100 market areas have two -way_capability. The relevant section
of rules reads: ,
On review of the comments received and our o n-engi, neeringestimates, we have decided to require that there be blfilt_intocable systems the capacity for return communication on at feast_a non-voice basis. Such construction.-is now demonstrably feasi-ble. Two-way communication, even rudimentary,in nature, canbe useful in a number of ways -- for surveys, marketing- Serviceburglar alarm devices, and educational feedback to name a few.
We are not now requiring cable systems to install necessaryreturn'communication devices at each subscriber terminal. Such
a requireMent is premature in this early -stage of cable's evolu-tion., It will be sufficientfor now that each cable system beconstructed with the potential of eventually providing returncommunication, without having to engage-in time-consumng andcostly system rebuilding. This requirement will be met,-if anew system is constructed, either-mfth the necessary auxiliaryequipment (amplifiers and passive devices) or with equipmentthat could easily be altered to prOvide return service. Whenoffered, activation of the return service must always be at thesubscriber's option.
As can be seen, these rules require no more than narrowband, non->
voice return capacity. As a practical matter, however, they are likely
to be surpassed in most or all new cable systems in the top 100 markets
by the installation of equipment from one or, more of the major manufac-
turers that provide some 20MHz of return capacity.
FCC's rules will produce a new generation of cable systems in major
market areas, all having two -way capability. In fact, a number of cities
that -had started franchising proceedings before the rules were
55
promulgated were already planning on two-way capacity, and have so
specified in their hearings, or had recently granted franchises, or-
dinances, etc. In addition to installed two-way systems, therefore;
we can give consideration to a certain number of sites where franchise:,
have been granted;.or soon will be granted, franchises that are likely
to have sufficient installed technical capability two years from now
to make them eligible. The total number of systems discussed tn Volume
'III is twenty-nine. Of these,.eleven are prime candidates:
o If a. site with installed capacity is preferred:-
Akron, OhioOrland, Florida
If a large city is Preferred:
HoU-ston, Texas
San Antonfb",- -Texas.
o If a medium-sized city, with "big city" urban characteristicsis preferred:
Gary, IndianaDayton, Ohio
9 If a medium-sized city with "suburban" characteristics is-pre-ferred:
Ar)ington,VirginiaSunnyvale', California
o If a "new community" is preferred:
Reston, VirginiaJonathan, Minnesota
If a city with contiguous suburbs or more affluent neighboringcommunities, all franchised,to the same operator and interconnected, is preferred:
Lynn, MassachusettsOrlando, Florida
56
0 If black ownership is regarded as important:
Dayton, Ohio
These sites have been ranked by applying comparative scores, based
on a subjective analysis of their standing in various categories. This
is a supplementary technique which provides an additional guide to the site
selection process, but which should not be the only basis for a site recom-
mendation. One important factor concerns the adaptability of existing and
designed system configurations to the hub concept. A conventional one-way
service hub would serve from two to five times the number of subscribers on
an interactive service hub as is described in Section 2.1. If distribution
systems do not develop along the "mini-hub" lines, we will still be able
to offer TICCIT on operational systems when frame-grabber prices drop.
For example, some have more extensive medical facilities; some have more
extensive eduational facilities; some have better developed cultural
facilities;"some have better developed community group and,civic action
groups; some have better facilities for communicating municipal and
socialinformation and services to their residents; some have demogra-
phic characteristics that might be conducive to better testing of cer-
tain types of demonstrations.
57
3
5.0 DEMONSTRATIONS OF INTERACTIVE TELEVISION
Showcase demonstrations of interactive service concepts have stim-
ulated feedback from communicators and the communications industry
and have been a catalyst for continuing developments in the technology
and applications of interactive television.. Demonstrations have been
the primary vehicle for developing both the hardware and the program
content from concepts into practice. Future demonstrations will
carry interactive television from the laboratory into the home, from
an experiment into a utility.
MITRE is soliciting industry to join in the technological
developments and is welcoming social science centers to join in the
evaluation of the social impact of interactive services. Interactive
television is a system of concepts (see Table VIII), not a particular
collection of hardware and software. At different periods, each
concept must be tested individually. A goal for this study is to
develop a plan (a defacto statement of feasibility) that, when put
into practice, will demonstrate that the combined concepts delivered
` to schools and homes simultaneously are both easy to utilize and
valuable to the subscriber.
This section reports on the history of these demonstrations,
their impact, and the new Reston demonstration content that has been
developed under the NSF grant.
58
TA
BL
E V
III
Dem
oost
ratin
g T
ICC
IT: T
he n
eces
sary
task
s an
d de
sire
d ef
fect
s.
Con
cept
Tas
ksE
ffec
t
Tim
e Sh
ared
Inte
ract
ive
Com
pute
r C
ontr
olle
d
Info
rmat
ion
Tel
evis
ion
lop.
uit.
Con
figu
re a
spa
ce a
nd ti
me
mul
tiple
xed
deliv
ery
syst
em to
opt
imiz
e th
e m
ajor
firs
t and
con
tinui
ng c
ost i
tem
s.
Prov
ide
..nPl
i,..w
isua
l/key
boar
d si
gnal
inpu
tca
pabi
lity
from
the
subs
crib
er's
hom
e fo
rre
al-t
ime
prog
ram
con
tent
con
trol
.
Inte
rpre
t and
res
puod
to th
e in
put s
igna
lsus
ing
dedi
cate
d on
-lin
e st
and-
alor
ie m
ini-
com
pute
rs a
nd s
tora
ge p
erip
heri
es.
Man
age,
upd
ate,
pro
duce
and
sto
re th
ese
rvic
e da
ta b
ase.
Del
iver
com
pute
r ou
tput
to u
nmod
ifie
dre
gula
r b/
w o
r co
lor
hom
e te
levi
sion
rece
iver
s.
Mas
s di
stri
butio
n w
ith e
cono
mic
: via
bilit
y fo
rre
alis
tic r
ates
of
reve
nue.
Subs
crib
er c
ontr
ol, D
isco
very
of
Con
sens
us)
I
Uni
que,
fas
t, de
dica
ted
disp
lay
prod
uctio
n,In
crea
sed
Com
mon
Inf
orm
atio
n Sp
ace)
I
Dea
liena
tion,
Acc
ess
to S
tore
d H
uman
eE
xper
ienc
e) I
..T
wo-
way
aud
iovi
sual
com
mun
icat
ion.
5.1 1971-1972 Demonstrations at Reston
From July 1971 to June 1972, demonstrations of conceptualized
services delivered via TICCIT over the Reston Transmission Company's
cable system were attended by over 1,800 people - from North and South
America, Europe, and Asia.
The demonstration was held in a home setting in order to simulate
the environment of a typical user butit was the lecturer who held
center stage. The MITRE demonstriator handled the'interaction while
the audience viewed passively.- The visitors (in the majority, male,
45, white, and professional) were not in their typical home-user role
during the demonstration and therefore could not provide a source of
data on the home use of the system.
The content of the data display, although necessarily limited,
was designed to reflect future potential for the system. Classified
ads, teleVision, and phone directories were used to demonstrate in-
expensive mass storage capabilities. The desk calculator and
community information material illustrated practical home services,
and the limited computer-assisted instruction and medical information
gave a sense of personalized services withhigh social utility.
Meaningful levels of interaction between user and system were
developed ay school children. These students ranged from grade one
to grade eight (a few high school and college groups also attended),
and the results were very positive. Several important aspects o4
our system became apparent from these demonstrations. Children,
60
even at the beginning, are not afraid or shy about using the equip-
ment. Once given simple instructions (or a simple demonstration),
they work quickly and easily and have a high rate of retention. One
group used the system in early July; when they used it again in
September, the chil\dren needed no refresh instructions on how to
operate the terminal. This experience was in line with Other's/--
/ periments with CAI at the elementary school level.
/ 5.2 The Impact of TICCIT-Demonstrations
The visitors to the Reston demonstrations have represented every-
majorgovernment department, a sPectrum of educational .institutions
from research laboratories to elementary and preschool operations,
municipal, financial, and citizen s groups; foundations; the media;
and domestic and international urporations. Among those attending
were the President of COMSAT, th Chairman of the Canadian FCC
equivalent (CTRC), the Director of Cable Television Bureau of the
FCC, the President of Goldmark Communications, and the President of
TVC.- (Appendix A lists the organizations and institutions represented
at demonstrations.)
The reaction of visitors has been generally enthusiastic and
-.Constructive. Visitors not only have assessed the potential TICCIT
0-
\contribution to their field, but most have also shown excitement over
the personal involvement that the program offers. "When will I be
able to have this_ in my home?," is probably the Most frequently
asked question.
61
The demOnstrations have influended the communications industry.
internationally. This is,clear from discussion's with Canadian,
French, and Aapanese manufacturers and with government officials
after they have-visited the demonstration. Here in the U.S., for
example, one of the largest electronics manufacturers in the country
has indicated that the Reston demOnstr'ali-dn had a major impact on
its board of directors'decision to enter the communications field.
We have reason to believe that the demonstration also influence the
Office ofTelecommunications Polity and the FCC toward-adapting a
policy encouraging two-way 'Cble development. Theevolution of the
-MTV, twoway-deMonstration is limited prototype experience and
stimulus to industry that encourages the provision of those products
that support mass.dissemination. Japanese manufacturers express
the most immediate interest. Shortly after a high level delegation
of their industry and government leaders visited, Japan announced
a $10-million development program in this fleld.
Demonstrations are influencing future social science experi-
ments. DialOgues are turning into plans to "piggyback" on the Reston
testbed. Universities are funding programs to develop ideas in
participatory derrfocracy, continuing education, clinical telecommuni
cations, programs for the aged, and services for the disabled..
5.3 A New Reston Demonstration. Developed-Under This Program
A second generation program, covering the-original, plus some"
major new content and technological and economic improvements, was
62
developed under this grant. This program, was_assembled because the
demand for demonstrations continues and the technology has prbgressed
dramatically since the original demonstration was started. The
resolution of the alphanumeric display has improved, and a graphic/
capability and variable fonts are now available in seven colors over
standard TV channel bandwidths. Both still and moving ray-scale
video segments can be. interspersed between the computer-generated-,
alphanumeric frames.'
The new program content has added the following materials:
Data retrieval screening to suit a subscriber's Unique,needs.
e Interaction between subscriber and computer memory bankduring an auction.
el Educational gaMes.
The concept of aTelevisit by,a,pnysician.
e Retrieval of gray-scale photographic data.
e Surrogate gambling.
Each of the ab6e represents an embryonic::program that Could be
developed to provide an interactive service similar to those in the_ _
original demonstration program listed in Figure 2.
Selective data retrieval is illustrated in the new Reston demon-__
stration by an individualized employment search program. The sub7
scr-titilber answers as' many as he chooses from a list of questions about
his education, previous experience, sex, salary or wage requirements,
and preferred work hours and location. His answerS determine which
63
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1 28 SA
LIST OF SERVICES FOR ORIGINAL DEMONSTRATION PROGRAM
jobs in the data bank meet his broad requirements, these are then dis-
played for the subscriber to browse through. Adequate space i s avai t-
able to describe the job environment, show pictures of the products or
the office, the best commuter flbt:ites. A distinction is made between
this full description, stored once and selected to suit the subscriber's
particular needs, and the space-constricted newspaper classified adver-
ti`sements that are stored thousands of times, in the hope a match with
a chance reader will be productive.
The auction concept is developed to demonstrate multf-terminal ,
real-time interaction with the computer memory bank. Having establishea
one's identity and credit rating, an automatic credit limit, if desired
on bidding, each subscriber can view the object to be auctioned. The
current hig;) bid and the time of the auction closing are displayed on
the screen, -:Bids are 'entered vi a the keyboard. The exercise, exposes
the problems of subscriber identity and management from the headend
of several simultaneous remote terminals and their interaction.
Educational games (any past-time in which skills of observation,
comparison, memory, etc. are required) provide a competitive framework
for learning experiences, either among subscribers, or between subscrir
ber and computer. An example is a word game where a series of three-
letter words must be unscrambled with points awarded for speed and ac-!
IThe physician's Televisit is an example of communication replacing
transportation, an important concept in its own right. The social
curacy.
65
implications of the houselto-clinic video link obviously extend beyond
medicine to community communications in,general.
'The full.; alphanumeric keyboardj5. necessary (and available) for
services that require subscriber-typed message inputs. The program is
designed, however, to allow the:Majority of the concepts to be controlled
by a standard, 12-button tou.chtone telephone pad. This is An line with
the general philosophy_behind the demonstration design, simplication
of the terminal equipment in the subscriber's hohie.
66
6.0 PLANS FOR THE IMMEDIATE FUTURE
The preparation for extended Phase I is outlined in this section.
These are the'short-term plans that will provide the technical and
sociological experience that must be gained before a design for a major
urban-environment can be realistically' attempted.
6.1 Servlces PlanneckfOr Multiple Home Delivery in the Next Seven Months
It is MITRE's recommendation that -preliminary trials of interactive
television should concentrate on:
Instruction delivered into schools and homes;
Community communications and social services delivered into homes.
In broad terms, these two recommendations represent services di-
rected at captive and non-captive audiences, respectively. The empha-
sis for our immediate plans will be on instruction to, audiences that
have a motivation to view and learn, or at least who have had their
time apportioned so that they will attend to the program. In contrast,
services for anon- captive audience must be designed to attract and hold
an audience in order to serve it. The techniques for design of social
services, compared with those for instructional services, require a
much different discipline and approach to the material.
Discretionary time of individuals, after all the "necessary" aspects
(including child raising, religion, etc.) of life are accounted for, is
mostly spent in companionship, entertainment, problem solving and self-_
improVeMent, shopping, and (usually to a much_lesser extent) community
involvement. Because of the. necessarily limited audience size, itis.
67
our intention to overlap some of these existing human desires and be-
havior patterns with our first selection of services. In other words,
improving the quality of life (not just the convenience of life) through
these potential services means serving individual desires, even though
they are unfulfilled and even unrecognized.
As detailed elsewhere in this report, the initial set of services
_'can offer_no more. Feedback from the community is vital to adapt the _
initial service.offering to the needs of theicommunity. This, however,
does not decrease our responsibility to create services with great sen-.
sitivity and ingenuity. Format, as well as, intent, in our opinion, will,1
greatly aIfect'usage and acceptance. In `the past year, a very minor
effort has gone into creating the_content of our demonstration programs
in social service. To our program, we halle now added a,number of crea-
tive individuals skilled in various specialities, who are dedicated to
creating programs in a wide range Of service categories. (Note that
teleshopping, telebanking, and telereservations are not included.
MITRE recognizes that, in-a fully operational system, these commercial
services potentially add. .significantly, to the economic viability of
an interactive television operation. However, MITRE believes it is
administratively premature to mount such services at this time.)
6.1.1 Instruction
The initial services menu-will include -a major data base of in-
structional material. In particular, we plan to provide services to
Stanford' University's (Professor Suppes) Computer-Assisted Instruction
program of elementary schools of drill and practice in arithmetic,
68
reading, and grammar. Based on talks with officials of the Fairfax
County Public School System, the three elementary schools in Reston will,
in all .probability, make major use of this material. The major innova-
tion of the Reston school program is that not only will approximately
15 terminals be utilized in each of the three elementary schools, but
that the same material will be available to the children in.their homes.
The computer will keep track of students! progress in both the school
and home environment.
The second major instructional service will be providing teachers
a special, extremely simple programming language that will allow them -Co
generate special instructional routines on the TICCIT computer directly
from the remote terminals. This interactive programming languaged,
called "Mr. Computer," has been used in New York State with great suc-,
- cess by sixteen schools for the mentally retarded. The language was
developed by General Electric Company and is so simple an average
teacher learns to program it in approximately two hours.
6.1.2 Companionship
For the house-bound, the very old, the infirm, mothers with small
children, and the "urban isolated," companionship services may prove to
be the most important of all. Generations no longer live together in
the same household, and the neighbors in an apartment building do not
know each other. The computer can provide, variety of services, some
of which emulate the kind of social information available in a small
community:
69'
A dynamic bulletin board of who wishes to do what. For example,
who wants to play pinochle at 8:00 tonight., SkillS, hobbies,
sports interests, reading to preschool children -- each is an
example of possible mutual interest that might stimulate com-
munity members to be more aware of each other, and could lead
to person-to-person contact.
Communication via keyboard that allows anonymous person-to-per-
son communication. This might be important for discussions of
personal problems, and possibly, a format for the equivalent of
encounter therapy.
Games that can be played on a person-to-person basis via the
interactive television communications facilities. Checkers,
bridge, and many other games could be played by people who are
either unable to leave their households, or find it inconvenient
to meet in person.
6.1.3 Community Ombudsman
In the past, both precimAs of a large town and small towns usually
had some individual to whom one could go for help in confronting the
confusing bureaucracy of federal, ftate, and local government. Many
"services" now provided by the government were provided by individuals.
Today, the local alderman, "boss', or fixer, is unknown to the urban
mobile population. Worse yet, finding out the service, nature, avail-
ability, and government organization to contact wnen one has problems
is information which, in our society, has been taboo to advertise. For
70
example, one does not see any advertisement, either on television or
in the newspapers, or in the display ads of the clar,sified yellow pages:
for the services of'the small claims court. One can Speculate, in this
particular example, that this is one reason why the small claims court
is now used primarily for merchants to seek redress against a client,
instead of, perhaps , the vice-versa. There are almost endless other
exdmples of community services that are difficult for the average citi-
zen to interface with. We think this is especially true for the poorly
educated and semi-illerate. The computer, in these cases, can be pro-
grammed to ask the user what his problem is, or perhaps present him with
a series'of indexes. After narrowing down to a,specific agency, the
computer presents information on detailed procedures for obtaining assis-'
tance,.and the details of what services can be provided. We think the
difference between this approach and searching and calling through the
government. bureaucracy is striking.
6.1.4 Community Soapbox'
The'limiteespace in "letters- to the editor" in local newspapers,
and the even more limited space on television editorials in today's
media provides no real substitute for the influence an individual
in a small community can bring to bear. Here is a medium for everybody
poets, artists, philosophers. Creative ideas available to the computer N
data base can be perused, on demand, by those who are interested in
hearing-theM. The low expense of a Single- time storage in a computer
data base enables the establishment of a communications media for which
there is no substitute in today's society.
71
6.1.6 Community Coherence
People do not participate enough in community affairs. Often it
is inconvenient, even embarrassing, for a citizen to express his views,
say in a hearing discussing the widening of a public road. when a much
broader cross-section of community opinion feels otherwise. We think
it is at least worth exploring whether it is practical to expose differing
opinion in real-time community meetings,. An alternative is non-real
time/Means to achieve similar ends. Experiments in "participatory
deMocracy" could be mounted on a test-bed, interactive system, such as
/the one planned for Reston. A member of the TICCIT staff, a lawyer, is
expected to seek practical formats for such an experiment.
6.1.7 Subscriber Design of the Medium
There is no reason to believe that we in the "ivory tower" will
come up with the most relevant programs for the computer. For example,
the teenage hotline or suicide hotline, or the call-in radio talk show,
were not invented by the telephone company. Neither was the Beatle
culture invented by the inventor of the long-playing record. For this
reason, we plan to allow subscribers in their homes to program the
computer to generate new services of their own design. The means to
do this will be a possibly expanded version of "Mr. Computer," a very
simple language to allow the ordinary person to program the computer.
Not only might members of the community program their own little CAI
programs, but an endless list of possibilities is opened up. For
example, individuals might put,"how-to" information on recipes, bird
identification, or other material, into the computer.
72
6,1,8 Health Care
A new category of health institutions, called a "health mainten-
ance organization," has recently been opened in Reston. It is sponsored
jointly by Georgetown University Hospital and various federal grants.
Its charter is to provide not only primary, largely prepaid health care
services fOr the residents of Reston, but to seek new ways to maximize
the efficiency of health-care workers, using such approaches as para-
medics and sophisticated computer and communications technologies. The
director of this organization, Dr. Sehnert, and HEW's Health Service and
Mental Health Agency are both interested in exploiting interactive tele-
vision to tese the system's efficiency in maximizing health-care delivery
efficiency. In particular, services such as doctor-inthe-office to
patient-in-the-home two-way televisits, health-problem screening,
and "triage" with the interactive computer in the hoMe, and problem
oriented medical record data bases are being seriously explored for
use on the Reston TICCIT system.
In the development program for generating the above services, it
is expected there will be a wide range of needs to meet, and courses
with a variety of funding agencies.
6.2 Management and Service Production Delivery
The tasks supporting the delivery of services into subscribers'
homes :n the first test-bed trial of interactive television had been
originally planned for Phase II. Now they have been advanced. The
simplification achieved in the home terminal equiPment during this
73
study period has greatly increased the potential number of subscribers
that interactive television may reach from thc: start. Our decision,
during the immediate future in Reston, is that we should capitalize on
this larger data base for social impact measurement.
The management of the service production and delivery system starts
with the question: What should be the source of the services: The
June panel emphasized that services should be chosen as,much as possible
from existing data bases, rather than spending time and money in genera-
ting original programs. New programming should be limited to community-
centered activities, such as weather reports, bus schedules, local
entertainment, garage sales, or auctions.
When the content is ready -- that is, a .weather report has been
written -- the management software must be generated before the services
become available. CAI that has run successfully elsewhere must be
converted for delivery by another systeM. As local CATV origination
programmers have discovered, the service source is most often the
community \itself. The necessary additional software tasks are those
that provide the delivery function.
The next question How will subscriber and experiment interface?
It is vitally important that communication channels between the users'
and the suppliers be visible, flexible, and above all, easy to use.
Channels must be continuously in effect, and must include an inquiry
line not dependent on the system. Such a heuristic and responsive pro-
gram will also require professional interviewing and social surveys..
74
We plan to utilize the system itself to monitor usage, and to
collect general statistics and opinions through multiple-question answer
formats. These broad base inputs will be complemented by in-depth
evaluations of random subscriber responses.
It is estimated that at least 1-1/2 hours per household pf
interviewing time will be required over the course of the development
phase; one-half hour when the keyboard is installed,-tolget background
data and to give instructions; a second, in mid-Stream to get general
usage information;_and a final interview to complete the usage infor-
mation and collect summary contents when the keyboard is removed. If
1,000 hoMeS are involved, some 200 man-days!.of interviewing time will
be needeci,'
The tirge-scale home trial will last for a minimum of two'to
three weeks. But a few hundred homes will be allowed usage for months,
and it is expected that they will pay fees for the service. In a
short period, the results may only reflect the 'novelty; a longer
interval should give a better estimate of how people would regularly
use this medium.
For the early implementation of interactive services, the home
telephone will be the input keyboard. Twenty simultaneous lines on
the computer could allow approximately four hundred subscribers to use
interactive services each day for half an hour (assuming a ten-hour day
The actual demand profile will be evaluated continuously as a functiOn
of the services offered. Such characterigtics of the system are
fundamental to the preparation for the Phase II market test.
75
CD
? j
The size of the effort and the varying work schedules for the
survey indicate that a small field office should be established for
administrative purposes. Such a Yield-site would support maintenance
in additipn_to providing the demonstration with a closer tie to the
community.
6.3 An Evolutionary Computer System Design
The present TICCIT demonstration must be reconfigured and expanded,
toprovide a variety of interactive services to many simultaneous users.
The presentation is now designed for briefing demonstrations, with only
one user on-line at an.utime, acid a)sMall data base (32,000 word
core--no ability to access 'disk storage). There,are-number of ways
in which the present system can be expanded to satisfy the extended
Phase I requirements (20 simultaneous users and five to ten-million
characters of storage). Our design approach is guided by two addi-
tional goals; first, the. system must be expandable to 100+, simulIaneous
users, without reconfiguration, so that there will be no need,-during
_Phase II, to start all over with the hardware and software design.
Our seecnd goal is to_make maximum use of the investment made by NSF
in our community college TICCIT operating system software. Thus, we.
selected a hardware configdration that is well-suited to the demands
of interactive -television, while also being compatible with the opera-
tional features of the unique operating system we are developing (i.e.,
the only operating system for a minicomputer that Can support over
_ one hundred'simultaneous users).
76
Figure 3 shows the new design for the Phase I operational system.
The computer load is split between two processors: one at MITRE's
McLean,,Mirginia offices; the other at the Reston Transmission Company's
headend in Reston, Virginia. The two processors are connected with a
_full duplex, 4800 band, telephone data line. The communication
processor in Reston accepts keyboard inputs from users, performs simple
editing on thejnput, packs the input into messages, and sends the
messages to the data base processor the_telephone data line. In
addition, the communication processor accepts messages from the data--
base processor, and_, under its command, causes the -char;74er generator
to output specified TV screen displays to specified users. Ina like
manner, the communication processor causes the random-access picture
file-to retrieve pictures and send them to appropriate users. The
mavctic tape unit, console CRT, and fixed disk are included to allow
a direct apprOach to-software updating and correcting. The communica-
tion processor CPU is a INIOva 800 minicomputer, as is the-data proceSsdr's
CPU.
The data processor accepts messages from the communication----
.//
processor, retr eves user data( and programs from its moving head disk
I
data base and ser file, and then generates.a response message that
extends to the communication processor. The line printer console CRT
and maghett c tape unit facilitate the generation of newapplicationi/
Programs on the syStem when it is off line.
Figure 4 shows the interconnection of refresh Memories to the
cable; 11he character generlator, the refresh control electronics, and
1 77
....
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the picture file. The refresh memory can capture and hold a picture
out* by the character generator in one-sixtieth of 4 seeond. There
is one refresh memory associated with each active user in the system
(in Phase I, there are twenty refresh memories). The output of each
refresh (a composite video signal) is modulated and placed on a channel.
4. the cabl.e. In Phase I, the modulated output of ten refresh devices
will gO on Reston's cable "A", and ten on cable "B" on VHF channels
not now used, and on mid-band and super-band channels that are-not used.
A user will be directed, when he logs on the 'system, to tune hisiTV set
or a set-top converter, in the case of mid-band and super-banU
channels) to the channel of"n available refresh memory. The ` picture
file in Phase I will be time-shared over' all users.;
The refresh memory is a solid-state,digital MOS shift register,
consisting of approximately iinety thousand bits. This device has
excellent resolution and reliability.
The character generator-haS'a programmable character set and can__-
equally-well generate graphics/an dhanum-erfc displays. Identicalh/
units-have been fabricated in :the community college program and are
operating successfully.
,,'Therefresh,controreiectronicsselectthcrefreshtocapture':-the-_-'.
_._output of the character generator, as well as Control rthe sWitching
, 11 pictdte filedata to the modulators.
1
The\modulators conVert base-band, composite video to standardA
radio frequenCytelevision sinals. The outputs of the modulators are\
4
80
\\
summed and placed on twenty channels of the two cables in the Reston
system, along with standard, over-the-air broadcast television signals.
The picture file allowing random accessing of gray-scale displays,
a moving-head, analog disk memory, with an access time of approximately
one-tenth of a second,will be usedIto perform this function:. -.New
pictures may be inserted simply'byplacing them in front of a-TV
camera and pressing a button.' With this simple process, they are
automatically recorded on the disk-and may then be retrieved on the
computer control.
The Phase I system is intended to deliver interactive television
services to any home with Reston Transmission Company's-cable system.
At any time, up to twenty home's may be simultaneously using the system.
As the system grows in Phase II, it will support 100 simultaneous
users. Only small changes will be necessary--primarily, the addition
of another moving-head disk drive an?the addition of eighty refresh
memories and modulktors. With the advent of more personali4ed services,
privacy Will be required. A subscriber must be confident that the/ 1
information he stores will not inadvertently orIpurpo'sely be displayed
on another's'screen. Scrambler.techniques'in conjunction with pay TV ,
are being developed that offer protectioriby a'rmagnetic card that
serves as a means_of identity. Suchdevices would be incorporated for
trials and evaluation.
As configured, the Phase I and Phase II systems will be so-Similar
that application software' generated AUring Phase I willun without
-- 81
1
modification in Phase II. In/addition, the Interactive Television
operating system will need Only insignificant modifications of the
Phase.I and Phase II configuration; to deliver the community college
CAI into any cabled Rc,:ton home. The Phase I design, therefore, meets
all of our goals.
6.4 Software
Just as the computer hardware design is premised on future expan-
sion, so is the software design. Most software products developed for
the Reston Phase-1 prOgram Will be used in subsequent phases.
The software required for an interactive television system falls
into three categories--the operating system; authorling software, and'
application program. The application programs, represent the content
and logic of the interactive television program. The authoring
software provides the means for entering these programs, while the
operating system provides the Mechanism for the delivery of the
interactive-television prOgraMs to the systere.s users.
II
objective of Phase it to enhance the existing operating
system developed in MITRE'si IAI,program. The authoring software will
also use programs.develciped in this project. In addition,a translatOr
program will be used to,convert the selected elementary-school level
A CAI programs into the form accepted by the existing authoring software.
The 'need for new application programs will be minimized by the use of
available CAI programs.
82'
APPENDIX
ORGANIZATIONS AND INSTITUTIONS REPRESENTED BY VISITORS.
TO THE MITRE CORPORATION'S TICCITDEMONSTRATIONS
83
FEDERAL GOVERNMENT
Central Intelligence AgencyCorporation for Public Broach:0011gDepartment of cornmerceDcpartm'ent of DefenseDepartment of Health, Education and WelfareDepartment of Housing and Urban Development cDepartment of the InteriorDepartment of JusticeDepartment of State/Agency for International DevelopmentHouse Commerce Committee/Subcommittee on Communications and PowerInternal Revenue ServiceNational Academy of EngineeringNational Aeronautics and Space AdministrationNational Bureau of StandardsNational Science FoundationNational Security Agency..Office of Economic OpportunityOffice of Science and TechnologyOffice'of Telecommunications PolicyPeace CorpsSmithsonian InstituteU.S. Information,Agericy Voice of AmericaU.S. Postal ServiceVeterans Administration
EDUCATIONAL INSTITUTIONS,
American UnivetAntioch College, Baltimore,MarylandBoard of Regents Atlanta School SystemBrigham Young UniversityCAI LaboratOry, University,of TexasCatholic UniversityColumbia UniversityDrexel UniversityEducational Satellite CeqterEinstein High'SchoOlEssex County College
84
EDUCATIONAL INSTITUTIONS tontinuctl)
Fairfax County'Public SchoolsFederal City CollegeHoward UniversityHunter CollegeJohns Hbpkins University-
,Massach.usettS Institute of TechnologyMontgomery CollegeNew York UniversityNorthern Illinois dniversityNorthenr-Virginia ComMunity Colle2e.Penn State University-Pine Ridge ElementarN. Sc-buolState Department of Education RichmondUniversity of MarylandUniversity of VirginiaVr-ginia-Computer College
COMMUNICATIONS INDUSTRY
AMP, Incorporated, Harrisburg, PennsylvaniaBell - Laboratory
'Burroughs_CorporationCPS LaboratoryCBS -TV
CCA Electronics.COMSATContinental TeloPlioneCypress communicationsDATRANElectronic CoMmunications,FEC ElectronicsGeneral Electric CompanyGTE Laboratories, Waltham, MasOchusettsHazeltine Research, Inc,Holmes Protection,HoneywellIBM
IEEE
85
7
COMMUNICATIONS INDUSTRY (continued)
Industrial Technological Interface, Inc.Informatics, Inc.Jerrold ElectronicsJersey EnterprisesLockheedMaryland Center for Public BroadcastingMetropolitan Mass MediaNational Association of BroadcastersNati() nal Audio Visual CorporationNational Cable Television AssociationPage CommunicationsPhilco-FordRaytheonRCA, New YorkSperry Rand Corporation, New YorkSylvania GTETELCOMTexas Instruments..
rVideoEngineeringWestern- UnionWGBH-TV BostonWNVT-TV ArlingtonXEROX Corporation
INTERNATIONAL
BELL CanadaCanadian 'Radio and TV CommissionGallo Fillio, Rio de JaneiroGaeta Fillio University, BrazilGovernment of GuatemalaHitachi , Ltd JapanICS Consul, PariSMillim Company, Sao PauIoORT Computer 'Center, Buenos AiresPartaw Electronics, TeheranTeijin, Ltd., JapanUniv. Federal de Rio de JaneiroVolvo, Sweden
86
. MUNICIPAL, FINANCIAL AND CITIZENS GROUPS
American Banking AssociationArlington CATV AssociativiCitizens for Arlington TVColumbia Hospital .SystemD.C. Department Of Human ResouitoD.C. LibraryInternational City Management AssociationManagement Advisory Council of NorthernNirginiaMayor's Economic .Development Committee''',-: D.C.Mayor of Madison. WisconsinMetropolitan Regional Council of Governments D.C.Opportunity. Funding CorporationWorld Bank
metro areas
MEDIA REPRESENTATIVES
Arlington County-Performing ArtsChildren's Television Workshop$ATAMATION MagazineEducational Information ServicesMcGiaw-Hill-;: Continuing Education Company ,National GeoglaphicPopular Science MagazineReadersDigestStandard andfiPoors Investment Capital, New YorkWashington Star
'FOUNDATIONS AND RESEARCH INSTITUTIONS
Aerospace CorpdrationArrtericean Library AssOcjationArthur D. Little COmpanyCafritz FoundationCATV Information CenterFord Foundation,Hudson Institute
87
FOUNDATIONS AND RESEARCH INSTITUTIONS (continued)
Human Sciences ResearchImagination FoundationInternational Research and TechnologyKettering Founda tionKiplinger FoundationLincoln LaboratoriesMarlie FoundationMyer FoundationRAND CorporationResearch Analysis, CorporationSloan CommissionUrban Institute
k9